2.6.1 program and course outcomes for all programmes
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2.6.1 Program and course Outcomes for all programmes offered by the institution are stated and displayed on website and communicated to teachers and students.
S.NO. DESCRIPTION PAGE NUMBER
1 Program Outcomes 2
2 Course Outcomes-2017 Regulation 3
S.NO COURSE CODE COURSE TITLE L T P C
1 HS8151 communicative english 4 0 0 4
2 MA8151 Engineering Mathematics – I 4 0 0 4
3 PH8151 Engineering Physics 3 0 0 3
4 CY8151 Engineering Chemistry 3 0 0 3
5 GE8151 problem solving and python programming 3 0 0 3
6 GE8152 Engineering Graphics 6 0 4 4
7 GE8161 Problem solving and python programming laboratory 0 0 4 2
8 BS8161 Physics and chemistry laboratory 0 0 4 2
S.NO COURSE CODE COURSE TITLE L T P C
1 HS8251 Technical English 4 0 0 4
2 MA8251 Engineering Mathematics – II 3 0 0 3
3 PH8252 Physics for Information Science 3 0 0 3
4 BE8254 Basic Electrical,Electronics and Measurement Engineering 3 0 0 3
5 IT8201 Information Technology Essentials 3 0 0 3
6 CS8251 Programming in C 3 0 0 3
7 GE8261 Engineering Practices laboratory 0 0 4 2
8 CS8261 C Programming Laboratory 0 0 4 2
SEMESTER 1
JEPPIAAR INSTITUTE OF TECHNOLOGY
"Self Belief | Self Discipline | Self Respect"
DEPARTMENT OF INFORMATION TECHNOLOGY
I - VIII SEMESTERS CURRICULUM & SYLLABUS
REGULATION - 2017
THEORY
PRACTICALS
SEMESTER 2
THEORY
PRACTICALS
9 IT8211 Information Technology Essentials 0 0 4 1
S.NO COURSE CODE COURSE TITLE L T P C
1 MA8351 Discrete Mathematics 4 0 0 4
2 CS8351 Digital Principle and system design 4 0 0 4
3 CS8391 Data Structures 3 0 0 3
4 CS8392 Object Oriented Programming 3 0 0 3
5 EC8394 Analog and Digital Communication 3 0 0 3
6 CS8381 Data structures Laboratory 0 0 4 2
7 CS8383 Object Oriented Programming 0 0 4 2
8 CS8382 Digital Systems Laboratory 0 0 2 1
9 HS8381 Interpersonal Skills/listening and speaking 0 0 2 1
S.NO COURSE CODE COURSE TITLE L T P C
1 MA8391 Probability and Statistics 4 0 0 4
2 CS8491 Computer Architecture 3 0 0 3
3 CS8492 Database Management System 3 0 0 3
4 CS8451 Design and Analysis of Algorithms 3 0 0 3
5 CS8493 Operating System 3 0 0 3
6 GE8291 Environmental science and engineering 3 0 0 3
7 CS8481 Database Management System Laboratory 0 0 4 2
8 CS8461 Operating Systems Laboratory 0 0 4 2
9 HS8461 Advanced Reading and Writing Laboratory 0 0 2 1
S.NO COURSE CODE COURSE TITLE L T P C
PRACTICALS
SEMESTER 4
SEMESTER 3
THEORY
THEORY
PRACTICALS
SEMESTER 5
1 MA8551 Algebra and Number Theory 4 0 0 4
2 CS8591 Computer Networks 3 0 0 3
3 EC8691 Microprocessor and Microcontroller 3 0 0 3
4 IT8501 Web Technology 3 0 0 3
5 CS8494 Software Engineering 3 0 0 3
6 OMD551 Basics of biomedical instrumentation 3 0 0 3
7 EC8681 Microprocessor and Microcontroller Laboratory 0 0 4 2
8 CS8581 Networks Laboratory 0 0 4 2
9 IT8511 Web Technology Laboratory 0 0 4 2
S.NO COURSE CODE COURSE TITLE L T P C
1 IT8601 Computational Intelligence 3 0 0 3
2 CS8592 Object Oriented Analysis and Design 3 0 0 3
3 IT8602 Mobile communication 3 0 0 3
4 CS8091 Bigdata Analytics 3 0 0 3
5 CS8092 Computer Graphics and Multimedia 3 0 0 3
6 IT6004 Software Testing 3 0 0 3
7 CS8662 Mobile Application Development Laboratory 0 0 4 2
8 CS8582 Object oriented Analysis and Design Laboratory 0 0 4 2
9 IT8611 Mini Project 0 0 2 1
S.NO COURSE CODE COURSE TITLE L T P C
1 MG8591 Principles of Management 3 0 0 3
THEORY
PRACTICALS
SEMESTER 6
PRACTICALS
THEORY
SEMESTER 7
THEORY
2 CS8792 Cryptography and Network Security 3 0 0 3
3 CS8791 Cloud Computing 3 0 0 3
4 Open Elective -II 3 0 0 3
5 Professional elective-II 3 0 0 3
6 Professional elective-III 3 0 0 3
7 IT8711 FOSS and Cloud ComputingLaboratory 0 0 4 2
8 IT8761 Security laboratory 0 0 4 2
S.NO COURSE CODE COURSE TITLE L T P C
1 Professional elective-IV 3 0 0 3
2 Professional Elective-V 3 0 0 3
3
4
5 IT8811 Project Work 0 0 20 10
PRACTICALS
SEMESTER 8
THEORY
PRACTICALS
Highest Cognitive Level
K3
K2
K3
K2
K2
K3
Highest Cognitive Level
K2
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K3
K2
K2
K1
Highest Cognitive Level
K2
K2
K2
K3
K2
CO101.3 Gain the basic grammar techniques and utilize it in enhancing language development.
CO101.5
Foster an environment for reading and develop good language skills
Course Outcome No. Course Outcome
CO101.1 Enable the development in sharing information about family and friends.
CO101.2 Strengthen general comprehending skills and present lucid skills in free writing.
Course Outcome
Subject Code & Name :PH8151 - Engineering Physics Department: IT Year/Sem: I/I
CO101
CO102
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
After successful completion of the course, the students should be able to
CO102.2 Explain gradients, potential functions, and directional derivatives of functions of several variables
CO102.3
CO103
After successful completion of the course, the students should be able to
Course Outcome No.
Compute line, surface and volume integral using Gauss divergence, Green’s and stoke’s theorem.
CO102.1 Diagonalize symmetric matrices and similar matrices using Eigen values and Eigen vectors.
Year/Sem: I/I
CO102.4 Discuss analytic functions in heat and fluid flow.
CO102.5 Extend the concept of contour integrals in evaluating Real integra
CO102.6 Discuss Laplace Transform methods to solve initial value problems for constant coefficient linear ODEs.
CO103.4 Describe advanced physics concepts of quantum theory and its applications in tunneling microscopes
CO103.5 Summarize the basics of crystals and their structures and different crystal growth techniques
CO103.2
CO103.3 Demonstrate the concepts of thermal properties of materials and their applications in expansion joints and heat exchangers
CO103.1 Explain the basics of properties of matter and its applications. K2
K2
K3
K2
K2
Highest Cognitive Level
Identify the concepts of waves and optical devices and their applications in fibre optics
CO104.5 Classify the types of batteries, their reactions and the significance of storage renewable energy resources.
CO104
After successful completion of the course, the students should be able to
SEMESTER 1
Subject Code & Name : HS8151 -Communicative English Year/Sem: I/IDepartment: IT
Subject Code & Name : MA8151 - Engineering Mathematics – I Department: IT
Develop flair for any kind of writing with rich vocabulary and proper syntax.
CO101.6 Proficiency in writing technical articles and presenting papers on any topic of any genre.
CO101.4
Course Outcome No. Course Outcome
CO104.1 Predict the type of troubles present in boilers and the methods used to treat hard water.
Subject Code & Name :CY8151-Engineering Chemistry Department: IT Year/Sem: I/I
CO104.2 Identify the factors affecting the rate of adsorption and catalytic activity.
CO104.3 Interpret the Concept of phase rule, its various phase diagrams and predict the low melting alloys
CO104.4 Enumerate various solid, liquid and gaseous fuels, manufacturing methods and basic reactions involved in combustion reactions
CO105
Subject Code & Name : GE8151-problem solving and python programming Department: IT Year/Sem: I/I
Compute the compound data using Python lists, tuples, and dictionaries
CO105.3 Compute the flow of the program to obtain the programmatic solution.
CO105.4 Examine the programs with sub problems using ‘Python’ language
CO105.5
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO105.1 Discuss the logical solutions through Flowcharts, Algorithms and Pseudo code.
CO105.2 Explain the syntax for python programming constructs.
JEPPIAAR INSTITUTE OF TECHNOLOGY
K3
Highest Cognitive Level
K2
K1
K3
K3
K1
K3
Highest Cognitive Level
K1
K3
K3
K3
K1
K3
K3
K3
K3
K1
A3
A3
A3
A2
Highest Cognitive Level
K2
K2
K2
K2
K2
K2
K2
K2
K2
K2
K3
K3
K3
K2
A3
A3
A3
A2
CO108.17 Express the Engineering activities with effective presentation and report.
CO108.18 Interpret the findings with appropriate technological / research citation.
CO107.14 Interpret the findings with appropriate technological / research citation.
CO108.15 Exhibit ethical principles in engineering practices.
CO108.16 Perform task as an individual and / or team member to manage the task in time.
CO107.11 Exhibit ethical principles in engineering practices.
CO107.12 Perform task as an individual and / or team member to manage the task in time.
CO107.13 Express the Engineering activities with effective presentation and report.
CO108.13
CO108.14
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
Estimate the amount of the given acids using conductometric titrations.
Estimate the amount of the given acids using pH titrations.
Determine the amount of iron content in the given substance using potentiometric titration.
Determine the amount of chloride content in the given water sample.
Exhibit ethical principles in engineering practices.
Perform task as an individual and / or team member to manage the task in time.
Exhibit ethical principles in engineering practices.
Perform task as an individual and / or team member to manage the task in time.
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
CO108.9
CO108.10
After successful completion of the course, the students should be able to
CO108
Determine the band gap energy of a semiconductor.
Apply python programs to read and write data from/to files
CO106
Subject Code & Name : GE8152 - Engineering Graphics Department: IT Year/Sem: I/I
CO105.6
After successful completion of the course, the students should be able to
Discuss about conics and orthographic views of engineering components.
CO106.2 Draw the projection of points, lines and planes.
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO106.5 Draw isometric projection and perspective views of an object/solid.
Course Outcome No. Course Outcome
CO106.4 Show sectioned view of solids and development of surface.
CO106.1
CO106.3 Classify solids and projection of solids at different positions.
Apply the concept of conditionals and loops in Python programs.
CO107.3 Develop the Python programs step-wise by defining functions and calling them.
CO107
Subject Code & Name : GE8161- Problem solving and python programming labora Department: IT Year/Sem: I/I
CO107.1 Write, test, and debug simple Python programs.
CO107.7
CO107.8
CO107.9
CO107.10
CO107.4 Use Python lists, tuples, dictionaries for representing compound data.
CO107.5 Read and write data from/to files in Python.
CO107.6 Apply the concept of Pygame.
CO107.2
CO106.6 Apply the concept of drawing in practical applications.
CO108.4 Measure the wavelength of prominent spectral lines of Mercury Spectrum and particle size of powder using diffraction phenomenon and thickness of thin materials using interference phenomenon.
CO108.3 Calculate the Compressibility of liquids and velocity of ultrasonic waves in liquids.
Year/Sem: I/ISubject Code & Name :BS8161 -Physics and chemistry laboratory
CO108.7
CO108.8
CO108.11
CO108.12
Department: IT
CO108.1 Determine the Modulus of elasticity of materials and Coefficient of Viscosity of liquids.
Calculate water quality parameters such as hardness, alkalinity of the given water sample.
Course Outcome No. Course Outcome
CO108.2 Determine the Thermal Conductivity of bad conductor using Lee’s disc method
CO108.5
CO108.6
Highest Cognitive Level
K2
K3
K3
K2
K3
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
K2
Highest Cognitive Level
K3
K3
K3
K3
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
K2
Highest Cognitive Level
K1
K3
K3
K3
K2
K3
K4
K3
K3
K3
K1
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
K3
K3
K3
K3
K3
K3
K3
K2
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
K3
K3
Implement the technologies behind computer networks and mobile communication K2
K3
K3
K3
K2
A3
A3
A3
A2
CO117.11 Perform task as an individual and / or team member to manage the task in time.
CO117.9 Interpret the findings with appropriate technological / research citation
Create applications with PHP connected to MYSQL
CO116.4
Year/Sem: I/II
CO116.13 Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
CO117.10 Exhibit ethical principles in engineering practices.
Exhibit ethical principles in engineering practices.
CO115.13 Perform task as an individual and / or team member to manage the task in time.
CO115.14 Express the Engineering activities with effective presentation and report.
CO115.15 Interpret the findings with appropriate technological / research citation.
CO117.6 Exhibit ethical principles in engineering practices
CO117.7 Perform task as an individual and / or team member to manage the task in time
CO117.8 Express the Engineering activities with effective presentation and report.
CO117.12 Express the Engineering activities with effective presentation and report.
Course Outcome
Course Outcome No.
Subject Code & Name : CS8261 Programming in C Laboratory
CO115.11
CO116.8
CO117.4
CO117.3
CO116.9
CO116.10
CO116.14
CO115.12
CO116.11
CO116.12
CO117.5
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO117.1 Design an interactive websites using basic HTML tags, different style,links.
CO117.2 Create client side and server side script using PHP
Design dynamic websites and handle multimedia components
CO111.2Associate the concept of quantum electron theories with energy band structures
CO111.3Discuss the carrier concentration in semiconducting materials.
CO111.4Explain the origin of magnetism and the properties of magnetic materials
CO117.13 Interpret the findings with appropriate technological / research citation.
CO109.5 Debate the issues and find the rudiments of the problem individually and as a group.
SEMESTER-2
CO109
Subject Code & Name : HS8251 -Technical English Department: IT Year/Sem: I/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO109.1 Breakdown the ideas in to its elementary constituents, analyze and act after a meaning full thought process.
CO109.2 Analyze the phrase and passage and explicitly pass on the ideas meaning fully.
CO109.3 Manage to interpret the given phrase or the graphical rendering and review the contents well individually or as a group
CO109.4 Concentrate on the communication aspect of complicated ideas and respond positively.
CO110.5 Extend the concept of contour integrals in evaluating Real integrals.
CO109.6 Respond intelligently and seek clarification and Gain completely.
C0110
Subject Code & Name : MA8251 - Engineering Mathematics – II Department: IT Year/Sem: I/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO110.1 Compute Eigen values and Eigen vectors of a matrix, diagonalize symmetric matrices and similar matrices
CO110.2 Explain gradients, potential functions, and directional derivatives of functions of several variables
CO110.3 Compute line, surface and volume integral using Gauss divergence, Green’s and stoke’s theorem.
CO110.4 Discuss analytic functions in heat and fluid flow.
CO111.5Discuss the working of Opto-electronic devices..
CO110.6 Discuss Laplace Transform methods to solve initial value problems for constant coefficient linear ODEs.
CO111
Subject Code & Name : PH8252-Physics for Information Science Department: IT Year/Sem: I/II
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO111.1Discuss about Wiedemann Franz law and the conduction in solids
CO112.5 Summarize the characteristics and errors of the instruments
CO111.6 Summarize the basics of quantum structures and their applications in nano devices.
CO112
Subject Code & Name : BE8254 & Basic Electrical and Electronics Measurement Department: IT Year/Sem: I/II
After successful completion of the course, the students should be able to
Course Outcome No.
Design and deploy web-applications
CO113.3
Course Outcome
CO112.1 Illustrate the behavior of electric circuits using fundamental laws and techniques
CO112.2 Explain the operation of DC, AC and Special machines
CO112.3 Summarize different energy sources, protective devices and its applications
CO112.4 Outline the characteristics and applications of semiconductor diodes.
CO114.1 Explain the syntaxes for C programming.
CO113.5 Describe the basic of networking and mobile communication
CO112.6 Explain the working of different types of Analog Instruments and transducers.
CO113
Subject Code & Name : IT8201 & Information Technology Essentials Department: IT Year/Sem: I/II
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO113.1 Design and deploy web-sites
CO113.2
After successful completion of the course, the students should be able to
Create simple database application
CO113.4 Develop information system
CO114.5 Associate the programs with structure using ‘C’ language.
CO114
Subject Code & Name : CS8251 & Programming in C Department: IT Year/Sem: I/II
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO115.6 Explain the working of electronic components and its utilization
CO114.2 Associate the programs in ‘C’ for real world situation
CO114.3 Apply the concepts of Arrays, Strings in ‘C’ language for user defined problems
CO114.4 Apply the concept of functions and pointers
CO115.5 Measure various electrical quantities
CO114.6 Discuss to read and write data from/to files in ‘C’ Programs
Course Outcome No.
Subject Code & Name : GE8261 Engineering Practices laboratory Department: IT Year/Sem: I/II
Course Outcome No.
CO115.1 Identify Tools and Techniques used for Sheet Metal Fabrication
CO115.2 Use welding equipment to join the structures
CO115.3 Demonstrate Plumbing requirements of domestic buildings.
CO115.4 Apply the skills of basic electrical engineering for house wiring practice
CO115.7 Apply electronic principles to develop circuits for primitive application
CO116.3
Subject Code & Name : IT8211 & Information Technology Essentials laborato Department: IT Year/Sem: I/II
CO116.6 Examine the use of sequential and random access file processing.
Exhibit ethical principles in engineering practices.
Perform task as an individual and / or team member to manage the task in time.
Analyze the concept of pointers, and structures in C
Develop the C programs with arrays and strings
CO116.7
Interpret the findings with appropriate technological / research citation
Course Outcome No. Course Outcome
CO116.1
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
CO116.5
Apply the concept of functions, recursion in C programs
CO116.2 Apply the concept of conditionals and loops in C programs.
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
Develop C programs for simple applications making use of basic constructs
Department: IT
After successful completion of the course, the students should be able to
CO115.8
CO115.9
CO115.10
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K3
K4
K4
K4
K3
K3
Highest Cognitive Level
K2
K2
K2
K3
K3
Highest Cognitive Level
K2
K2
K2
K3
K3
Highest Cognitive Level
K2
K3
K3
K4
K3
Highest Cognitive Level
K2
K3
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
K4
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
A2
K2,A3
K2,A3
A2
A2
K3
A3
A3
A3
A2
Develop and implement Java programs for simple applications that make use of classes.
Interpret the findings with appropriate technological / research citationCO208.9
Express the Engineering activities with effective presentation and report
CO207.1
C0202
Subject Code & Name : CS8351 & Digital System Principles and Design Department: IT Year/Sem: II/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO209.10
Exhibit ethical principles in engineering practices.
Perform task as an individual and / or team member to manage the task in time.
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
CO208.7Exhibit ethical prrinciples in Engineering Practices
CO208.8Perform Task as an Individual and/or team member to manage the task in time
CO208.10
CO201.5 Interpret the concepts and properties of algebraic structures such as groups, rings and fields.
SEMESTER 3
CO201
Subject Code & Name : MA8351 & Discrete Mathematics Department: IT Year/Sem: II/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO201.1 Summarize the concepts needed to test the logic of a program.
CO201.2 Classify structures on many levels.
CO201.3 Cite the class of functions which transform a finite set into another finite set which relates to input and output functions in computer science.
CO201.4 Develop the knowledge of the counting principles.
CO202.5 Complete designs using Programmable Logic Devices
CO202.1 Solve Boolean functions using K - Map
CO202.2 Design and Analyze Combinational Circuits
CO202.3 Design and Analyze Synchronous Sequential Circuits
CO202.4 Design and Analyze Asynchronous Sequential Circuits
CO203.5Complete various searching, sorting, & Hashing techniques.
CO202.6 Articulate HDL code for combinational and Sequential Circuits
Subject Code & Name : CS8391& Data Structures Department: IT Year/Sem: II/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO203.1Summarize abstract data types for linear data structures
CO203.2Interpret the various linear data structures concepts Lists, Stack, & Queue
CO203.3Interpret how trees & heaps are used in various applications
CO203.4Solve and implement Graph structures and algorithm
CO204.5 Articulate and build simple Graphical User Interfaces
C0204
Subject Code & Name : CS8392& Object Oriented Programming Department: IT Year/Sem: II/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO204.1 Summarize the Object Oriented Programming concepts and basic features of Java
CO204.2 Interpret the OOPS principles with packages, inheritance and interfaces
CO204.3 Interpret exceptions and use I/O streams
CO204.4 Develop a java application with threads and generics classes
CO205.5 Articulate about multi user radio communication.
CO205
Subject Code & Name : EC8394 & Analog and Digital Communication Department: IT Year/Sem: II/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO205.1 Summarize various analog communication techniques.
CO205.2 Use various pulse and data communication techniques.
CO205.3 Classify different digital modulation schemes in communication.
CO205.4 Categorize source and error control coding schemes.
CO206.5 Complete the linear / non-linear data structure operations for a given problem based on the user needs.
CO206
Subject Code & Name : CS8381 &Data Structures Lab Department: IT Year/Sem: II/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO206.1 Summarize functions to implement linear and non-linear data structure operations.
CO206.2 Devise practical applications of data structures.
CO206.3 Design and develop appropriate linear / non-linear data structure operations for solving a givenproblem.
CO206.4 Design new solutions for programming problems or improve existing code using learnedalgorithms and data structures.
Interpret the findings with appropriate technological / research citation.
CO207.5 Apply the concepts of classes, packages, interfaces, exception handling .
CO206.6 Complete appropriate hash functions that result in a collision free scenario for data storage and retrieval
CO207
Subject Code & Name : CS8383 & Object Oriented Programming Lab Department: IT Year/Sem: II/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Develop and implement Java programs with array list.
CO207.3 Design applications using file processing.
CO207.4 Build software development skills using java programming for real-world applications.
CO209.7
CO209.8
CO209.9
CO208.5Solve Verilog codes for the design of Digital Circuits
CO207.6
C0208
Subject Code & Name : CS8382 & Digital Systems laboratory Department: IT Year/Sem: II/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO208.1 Solve the functional characteristics of basic logic gates
CO208.2 Complete the various combinational circuits and Sequential circuits
CO208.3 connect various combinational circuits using MSI devices
CO208.4 Discover the various code with HDL programming
CO209.5 To Greet and to respond to Greetings.
CO208.6Interpret Simple Digital System
C0209
Subject Code & Name : HS8381& Interpersonal skill/Listening &speaking Department: IT Year/Sem: II/III
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO209.1 Listen and react by giving verbal and non verbal feedback.
CO209.2 To make effective contribution in Group Discussions.
CO209.3 Compare and Contrast the ideas from multiple choices and summarize.
CO209.4 Respond confidently in both Formal and Informal conversations.
CO209.6 Apply stress and intonation while speaking to make the presentation effective.
CO206.7
CO206.8
CO206.9
CO206.10
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report
CO207.10
Exhibit ethical principles in engineering practices.
Perform task as an individual and / or team member to manage the task in time.
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
CO207.2
Develop applications using generic programming and event handling.
CO207.7
CO207.8
CO207.9
Highest Cognitive Level
K2
K2
K3
K3
K4
Highest Cognitive Level
K2
K2
K3
K2
K2
K2
Highest Cognitive Level
K2
K3
K2
K2
K2
K2
Highest Cognitive Level
K3
K4
K3
K2
K3
Highest Cognitive Level
K2
K3
K6
K4
K6
K3
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K3
K3
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
K3
K3
K3
K3
A3
A3
A3
A2
CO214
Subject Code & Name : CS8493 & Operating Systems Department: IT
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO211.1
Summarize the concepts of I/O system.
After successful completion of the course, the students should be able to
Relate the notion of sampling distributions and statistical techniques used in engineering and management problems.
SEMESTER 4
CO210
Subject Code & Name :MA8391 Probability and Statistics Department: IT Year/Sem: II/IV
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO210.1 Summarize the fundamental knowledge of the concepts of probability and have knowledge of standard distributions which can describe real life phenomenon.
CO210.2 Interpret the basic concepts of one and two dimensional random variables and apply in engineering applications.
CO210.3 Apply the concept of testing of hypothesis for small and large samples in real life problems.
CO210.4 Apply the basic concepts of classifications of design of experiments in the field of agriculture and statistical quality control.
CO211
CO210.5
Subject Code & Name : CS8491 - Computer Architecture Department: IT Year/Sem: II/IV
CO212
Summarize the basic structures of a computer system
Interpret the various arithmetic operations for computers
Analyze pipelined control units and the different types of hazards in the instructions
CO211.4 Interpret the concepts of parallel processing architecture
C0211.2
Summarize the fundamentals of memory system
C0211.6
After successful completion of the course, the students should be able to
Course Outcome No.
Subject Code & Name : CS8492-Database Management System Department: IT Year/Sem: II/IV
CO211.3
CO211.5
Department: IT Year/Sem: III/IV
Year/Sem: II/IV
C0213.5 Apply the Approximation Algorithms and Design of Branch and Bound and Back Tracking techniques for the given real time problems.
Course Outcome No. Course Outcome
Course Outcome No. Course Outcome
CO212.1
C0213.3 Apply Critically the Dynamic programming and Greedy Techniques for the given real time problems.
CO213.4 Relate an Iterative Improvement technique for various computing problems.
CO213
Subject Code & Name : CS8451 - DESIGN AND ANALYSIS OF ALGORITHMS
Compare and contrast various indexing strategies in different database systems
Cite the fundamental concepts of relational database and SQL
CO212.2 Use ER Model for Relational model mapping to perform database design effectively
C0214.3
CO212.3 Summarize the properties of Transactions and concurrency control mechanisms
CO212.4
CO214.2 Apply the principles of process management and concurrency to design various scheduling algorithms
Summarize the various storage and optimization techniques
CO212.5
CO212.6 Summarize the different advanced databases
Course Outcome
CO214.1 Infer knowledge in various concepts, structure and functions of operating system.
Subject Code & Name : GE8291 Environmental science and engineering Department: IT Year/Sem: II/IV
CO214.5 Design various disk systems, file systems and I/O sub systems.
C0215
Complete administrative tasks on Linux Servers.CO214.6
Year/Sem: II/IVDepartment: IT
CO215.5 Summarize the population related issues and types of welfare programmes in the society.
After successful completion of the course, the students should be able to
Course Outcome
CO215.1 Interpret the basic concept of Ecosystems and Biodiversity.
CO215.2
Course Outcome No.
Compare the types of pollution and its control measures.
CO215.3
Subject Code & Name :CS8461 & Operating Systems Laboratory Department: IT Year/Sem: II/IV
CO217.1
CO217.5 Analyze the performance of the various page replacement algorithms
Interpret the findings with appropriate technological / research citation
Critically analyze the use of Tables, Views, Functions and Procedures
C0217
C0216.4
Interpret the findings with appropriate technological / research citationC0216.4
CO217.6
CO217.7
After successful completion of the course, the students should be able to
C0216.4
Course Outcome
CO216.1
C0216.4
C0216
Subject Code & Name : CS8481 Database Management System Laboratory
CO216.2 Design applications to test Nested and Join Queries
CO216.3 Solve simple applications that use Views
Course Outcome No.
Express the Engineering activities with effective presentation and report.C0216.4
Use typical data definitions and manipulation commands.
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Use ER modeling and normalization to design and implement database
CO213.1 Interpret the Fundamental needs of algorithms in problem solving and Analyze the time and space complexity of algorithms.
CO213.2 Analyze Critically the Brute Force and divive and conquer techniques for the given real time problems
CO215.4 Infer the importance of environment by assessing its impact on the human world.
Design deadlock detection and avoidance algorithms.
CO214.4 Compare and contrast various memory management schemes.
Summarize the importance of natural resources and Disaster management.
After successful completion of the course, the students should be able to
C0216.4
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
CO217.3 Use semaphore concepts.
Course Outcome
Complete applications that require a Front-end Tool
CO217.2 Complete deadlock avoidance and detection algorithms.
C0216.4
C0217.4
After successful completion of the course, the students should be able to
Course Outcome No.
Illustrate the various CPU scheduling algorithms.
Design processes and implement IPC
CO217.10
Summarize file organization and file allocation strategies
Exhibit ethical principles in engineering practices
CO217.9
CO217.8
Highest Cognitive LevelK3
K3
K2
K3
K3
Highest Cognitive Level
K2
K2
K2
K3
K2
K3
Highest Cognitive Level
K2
K2
K2
K3
K2
4
Highest Cognitive Level
K3
K3
K3
K3
K3
K3
Highest Cognitive Level
K2
K2
K2
K2
K2
K3
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K3
K3
K3
K3
K2
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
K3
K3
K3
A3
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
K3
K3
K3
K3
A3
A3
A3
A2
Course Outcome No. Course Outcome
CO301.3 Compare accurate and efficient use of advanced algebraic techniques.
CO301.5 Apply integrated approach to number theory and abstract algebra, and provide a firm basis for further reading and study in the subject.
CO301.4 Solve non - trivial problems related to the concepts, and by proving simple theorems about the, statements proven by the text.
SEMESTER 5
C0301
Subject Code & Name : MA8551& Algebra and Number Theory Department: IT Year/Sem: III/V
After successful completion of the course, the students should be able to
CO301.1 Apply the basic notions of groups, rings, fields which will then be used to solve related problems.
CO301.2 Relate the fundamental concepts of advanced algebra and their role in modern mathematics and applied contexts.
CO302.5Summarize the working of various application layer protocols
C0302
Subject Code & Name : CS8591 & Computer Networks Department: IT Year/Sem: III/V
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO302.1Cite various layers of network and discuss the functions of physical layer
CO302.2Summarize how data flows from one node to another node with regard to data link layer
CO302.3Cite the different services of network layer
CO302.4Compare the different transport layer protocols and their applicability based on user requirements
CO303.5 Illustrate about various interfacing modules with 8051 microcontroller
CO302.6Analyze the performance of network and analyze routing algorithms
CO303
Subject Code & Name : EC8691& Microprocessor and Microcontroller Department: IT Year/Sem: III/V
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO303.1 Summarize about internal architecture of 8086 Microprocessor
CO303.2 Summarize about system bus structure of 8086 Microprocessor
CO303.3 Relate the various interfacing modules with 8086 Microprocessor
CO303.4 Illustrate the architecture of 8051 microcontroller
CO304.5 Develop web services and how these web services interact with web service Technologies
CO304
Subject Code & Name IT8501&Web Technology Department: IT Year/Sem: III/V
Course Outcome No. Course Outcome
CO304.1 Design Simple web Pages using Markup Language like HTML and XHTML
CO304.2 Design Dynamic web pages using CSS and Javascript
CO305.5 Interpret the project schedule, estimate project cost and effort required
CO304.6 Develop Interactive Web Applications for real world problems
CO304.3 Develop Server side web pages that have to process request from client side using Servlets and JDBC
CO304.4 Illustarte the Web data using XML and develop server side web pages using JSP
CO305.3 Summarize the systematic procedures for software design and deployment
CO305.4
C0305
Subject Code & Name : CS8494 &Software Engineering Department: IT Year/Sem: III/V
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO305.1 Identify the key activities in managing a software project and recognize different process model
CO305.2 Cite the concepts of requirements engineering and Analysis Modeling.
Interpret the Architecture and operation of Microprocessor(8086)
CO306.5 Categorize the different types of biochemical measurement
CO305.6 Develop a software using the software engineering principles
CO306.3
CO306
Subject Code & Name :OMD551 &Basics of biomedical instrumentation Department: IT Year/Sem: III/V
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO306.1 Summarize different biopotential electrodes and its propagation mechanism
CO306.2
After successful completion of the course, the students should be able to
Ilustrate different types of electrodes and its placement for various recording
Summarize the concepts of bio ampifiers for various physiological recording
CO306.4 Summarize the different measurement techniques for non-physiological parameters
C0307.5 Develop applications using instructions of microprocessors and microcontroller
CO307.1
CO307
Subject Code & Name : EC8681& Micfroprocessor and Microcontroller Laborat Department: IT Year/Sem: III/V
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO3O8.6 Illustrate Network simulator (NS) and Simulate Congestion Control Algorithms using NS
CO307.2 Devise simple Assembly Language programs using instruction sets of microprocessor and microcontroller
CO307.3 Compare instruction sets of 8086 microprocessor and 8051 microcontroller
CO307.4 Devise Assembly language programs using instruction set of microprocesssor
CO308.5 Implement error correction codes
C0307.6 Interpret the Architecture and operation of Microcontroller(8051)
C0308
Subject Code & Name : CS8581& Networks Laboratory Department: IT Year/Sem: III/V
Course Outcome
CO308.1 Devise various protocols using TCP and UDP
CO308.2 Compare the performance of different transport layer protocols
CO308.3 Use simulation tools to analyze the performance of various network protocols
Course Outcome No.
CO308.4 Analyze various routing algorithms
CO3O8.8
CO309
Subject Code & Name : IT8511& Web Technology Laboratory Department: IT Year/Sem: III/V
After successful completion of the course, the students should be able to
CO309.5 Construct web application using AJAX and web services
Develop dynamic web pages using server side scripting
CO309.4 Develop Complete web application using Three tier architecture(JDBC)
CO309.2 Design dynamic web pages with validation using Javscript and apply different event handling mechanisms
CO309.3
C0307.8 Perform task as an individual and /or a team member to manage the task in time
C0307.9 Express the engineering activities with effective presentation and report
C0309.6 Develop interactive web applications for real world problems
Course Outcome No. Course Outcome
CO309.1 Construct web pages using HTML and stylesheet
Compare various testing and maintenance methods
After successful completion of the course, the students should be able to
CO3O8.7 Exhibit ethical principles in engineering practices
C0307.10 Interpret the findings with apppropriate technological/research citation
C0307.7 Exhibit Ethical principles in engineering practices
CO3O9.10 Interpret the findings with appropriate technological / research citation.
Perform task as an individual and / or team member to manage the task in time
CO3O8.9 Express the Engineering activities with effective presentation and report.
CO3O8.10 Interpret the findings with appropriate technological / research citation.
CO3O9.7 Exhibit ethical principles in engineering practices
CO3O9.8 Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.CO3O9.9
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K1
K1
K2
K2
K3
K3
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K3
K2
K2
Highest Cognitive Level
K1
K2
K3
K3
K2
Highest Cognitive Level
K3
K3
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K3
K2
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
K3
K4
K4
K4
A3
A3
A3
A2
CO310.5 Interpret applications for NLP that uses Aritificial Intelligence
SEMESTER 6
CO310
Subject Code & Name : IT8601& Computational Intelligence Department: IT Year/Sem: III/VI
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO310.1 Interpret Search algorithms for any AI Problem
CO310.2 Illustarte a problem using first order and predicate first order logics
CO310.3 Improve problem solving skills using the acquired knowledge in the areas of Fuzzy set and Neural Networks
C0310.4 Improve problem solving skills using the acquired knowledge in the areas of Machine learning and statistics
CO311.5 Interpret the software design with design patterns.
C0311
Subject Code & Name : CS8592 &Object Oriented Analysis and Design Department: IT Year/Sem: III/VI
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO311.1 Describe the fundamentals of object modeling
CO311.2 Describe and differentiate Unified Process from other approaches.
CO311.3 Design with static UML diagrams.
CO311.4 Design with the UML dynamic and implementation diagrams.
CO312.5 Infer the functionality of transport and applivcation layer
CO311.6 Compare software against its requirements specification
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO312.1 Illustrate the basic concepts of mobile computing
CO312.2 Infer the basics of mobile teele communication system
CO312.3 Illustrate the generations of tele communication systems in wireless networks
CO312.4 Summarize the functinality of MAC,network Layer and Identify a routing protocol for a given adhoc network
CO313
Subject Code & Name : CS8092& Graphics and Multimedia
CO313.5 Summarize Hypermedia and blender Graphics
Department: IT Year/Sem: III/VI
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO313.1 Summarize the various output primitives ,color models
CO313.2 Summarize various 2D Transformations,Viewing and clipping algorithms
CO313.3 Analyze the 3D Objects and Projections
CO313.4 Interpret Multimedia System design and File Handling
CO314
Subject Code & Name : CS8091 & Big data Anaytics Department: IT Year/Sem: III/VI
CO316
Subject Code & Name : CS8662 & Mobile Application Dvelopment laboratory Department: IT
After successful completion of the course, the students should be able to
CO314.1 Summarize the working of bigdata tools and it's Analysis techniques
CO314.2 Summarize the data analysis by utilizing clustering and classification algorithms
CO314.3 Apply different mining algorithms and recommendation system for large volume of data
Interpret the findings with apppropriate technological/research citation
C0316.8 Perform task as an individual and /or a team member to manage the task in time
CO314.4 Analyze Data Streams
CO314.5 Summarize the NoSQL Databases and Management
CO316.5
Course Outcome No. Course Outcome
C0316.1 Illustarte Mobile Application using GUI and Layouts
Develop own mobile application for simple needs
CO316.2 Develop mobile applications using Event Listener
CO316.3 Design mobile applications using Database
CO316.4 Use mobile applications using RSS Feed, Internal/External Storage ,SMS and Multithreading with GPS
CO317
C0316.9 Express the engineering activities with effective presentation and report
C0316.10
Subject Code & Name : CS8552& Object Oriented Analysis and Design Laboratory Department: IT Year/Sem: III/VI
CO317.5 Design by applying appropriate design patterns.
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO317.1 Summarize the requirements specification for an intended software system
CO317.2 Summarize UML diagrams for the given specification
CO317.3 Relate the design properly to code
CO318.5 Implement and test solutions to trace against the user requirements
Department: IT Year/Sem: III/VI
CO317.4 Devise software system test cases thoroughly for all scenarios
Course Outcome No. Course Outcome
Interpret the findings with apppropriate technological/research citation
Interpret the findings with apppropriate technological/research citation
CO318.2 Identify and survey the relevant literature for getting exposed to related solutions
CO318.3 Build project plans with feasible requirements
CO318.9 Express the engineering activities with effective presentation and report
CO318.10
After successful completion of the course, the students should be able to
CO317.9
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO318.8 Perform task as an individual and /or a team member to manage the task in time
CO318.7 Exhibit Ethical principles in engineering practices
CO318.1 Choose problems with technical importance and societal contribution
CO318
Subject Code & Name : IT8611&Mini Project
CO318.4 Analyse, design and develop adaptable and reusable solutions
CO318.6 Deploy the solutions for better manageability and provide scope for improvability
CO317.7 Perform task as an individual and /or a team member to manage the task in time
CO317.8 Express the engineering activities with effective presentation and report
CO317.6 Exhibit Ethical principles in engineering practices
C0316.7 Exhibit Ethical principles in engineering practices
C0316.6 Develop mobile applications using different application development frameworks
Year/Sem: III/VI
CO312
Subject Code & Name : IT8602 & Mobile Communication Department: IT Year/Sem: III/VI
Highest Cognitive Level
K2
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K3
K3
K3
K2
Highest Cognitive Level
K2
K2
K3
K2
K3
K3
Highest Cognitive Level
K2
K3
K3
K3
K2
Highest Cognitive Level
K2
K3
K3
K2
K2
Highest Cognitive Level
K2
K2
K3
K3
K3
Highest Cognitive Level
K2
K2
K2
K3
K2
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
K3
K3
K2
A3
A3
A3
A2
SEMESTER 7
CO401
Subject Code & Name : MG8591-Principles of Management Department: IT Year/Sem: IV/VII
After successful completion of the course, the students should be able to
Year/Sem: IV/VII
CO401.5 Summarize various Controlling techniques to maintain standards in Organizations
CO401.6Relate managerial functions and knowledge on international aspect for Organizational growth
CO407.6 Exhibit Ethical principles in engineering practices
CO402
Subject Code & Name : CS8792-Cryptography and Network Security
CO402.6Compare various Security practices and System security standards.
Course Outcome No. Course Outcome
CO401.1 Summarize the evolution of management thoughts and the challenges of managerial activities in a global business environment.
CO401.2 Classify the types of Planning and Decision making methodologies in Organizations
CO401.3 Summarize various types of Organization structure and associated Human Resources activities for man-power utilization
CO401.4 Compare motivation theories, behavior, leadership theories and communication for effective directing
CO402.5Apply the various Authentication schemes to simulate different applications
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO402.1
CO402.2Summarize the mathematical support for both symmetric and asymmetric key cryptography
CO402.3Use of symmetric key cryptographic algorithms to perform cryptographic operations
CO402.4Solve cryptographic operations using public key cryptographic algorithms
CO403.5Install and use current cloud technologies.
Course Outcome No. Course Outcome
CO403.1Articulate the main concepts, key technologies, strengths and limitations of cloud computing
CO403.2
CO403
Subject Code & Name : CS8791 -Cloud Computing Department: IT Year/Sem: IV/VII
After successful completion of the course, the students should be able to
CO403.3
CO403.4
CO404
Subject Code & Name :OME752-Supply Chain Management Department: IT Year/Sem: IV/VII
Compare the key and enabling technologies that help in the development of cloud
Use NIST cloud computing architecture to solve architecture design challenges
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO404.1 Illustrate the basic concepts of decision phases, drivers and apply competitive supply chain strategies.
CO404.2 Analyze factors influencing network design.
CO405.5 Summarize the organizational behavior and working in teams.
CO405.1 Summarize the software project evaluation techniques and planning
After successful completion of the course, the students should be able to
Course Outcome No.
CO404.3 Apply the design, routing and scheduling pricniples of transportation network in supply chain.
CO404.4 Summarize Sourcing and Coordination Effects of Supply Chain
C0405
Subject Code & Name : IT8075-Software Project Management Department: IT Year/Sem: IV/VII
CO404.5 Summarize the role of Information Technolgy and analyse the Customer, Supllier Relationship Coordination in a supplychain.
Course Outcome
CO405.2 Compare different software process models and cost estimation techniques.
CO405.3 Illustrate the risk management process.
CO405.4 Explain the need for Software Project Management and control.
CO406.5 Design meaningful user interface.
CO406
Subject Code & Name : CS8079-Human Computer Interaction Department: IT Year/Sem: IV/07
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO406.1 Interpret the computer devices and HCI models.
CO406.2 Summarize the interactive design basics and HCI software process.
CO406.3 Analyze the stake holders requirements and choose the appropriate models.
CO406.4 Develop mobile HCI using mobile elements and tools by considering mobile eco system.
CO407.5 Modify large data sets in a parallel environment.
CO407
Subject Code & Name : IT8711 - FOSS and Cloud Computing Laboratory Department: IT Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO407.1 Configure various virtualization tools such as Virtual Box,Vmware workstation
CO407.2 Design and deploy a web application in a Paas Environment link layer
CO407.3 Use cloud environment to implement new schedulers
Department: IT Year/Sem: I/I
After successful completion of the course, the students should be able to
CO407.4 Develop generic cloud environment that can be used as private cloud
CO408.4 Develop a signature scheme using Digital Signature standard.
Construct code for authentication algorithms
CO408.2 Build cryptosytems by applying symmetric and public key generation algorithms
CO408.3
Subject Code & Name : IT8761-Security laboratory
CO403.6Illustrate and choose the appropriate technologies, algorithms and approaches for implementation and use of cloud
CO408.5 Demonstrate the network security system using open source tools
Course Outcome No. Course Outcome
CO408.1 Develop code for classical Encryption techniques to solve the problems.
Summarize the core issues of cloud computing such as resource management and security
Summarize the fundamentals of networks security, security architecture, threats and vulnerabilities
Department: IT
CO407.7 Perform task as an individual and /or a team member to manage the task in time
CO407.8 Express the engineering activities with effective presentation and report
CO407.9 Interpret the findings with apppropriate technological/research citation
CO408.9 Interpret the findings with apppropriate technological/research citation
CO408.6 Exhibit Ethical principles in engineering practices
CO408.7 Perform task as an individual and /or a team member to manage the task in time
CO408.8 Express the engineering activities with effective presentation and report
Highest Cognitive Level
K1
K2
K2
K2
K2
Highest Cognitive Level
K4
K4
K5
K4
Highest Cognitive Level
K3
K5
K4
K6
K4
K5
After successful completion of the course, the students should be able to
CO409.3 Interpret code of Ethics applied in Engineering.
CO409.4
SEMESTER 8
CO409
Subject Code & Name : GE8076- Professional Ethics in Engineering Department: IT Year/Sem: IV/VIII
Summarize the Ethical issues, responsibilities and rights in the society.
CO409.5 Summarize the social responsibility on multinational corporations related to engineering.
Course Outcome No. Course Outcome
CO409.1 Describe the human values with regard to the individual life style for the society
CO409.2 Illustrate the moral issues and models of professional roles.
CO410
Subject Code & Name : Electronic Commerce Department: IT Year/Sem: IV/VIII
Course Outcome No. Course Outcome
CO410.3 Develop and manage web apps
After successful completion of the course, the students should be able to
CO410.1 Design website using HTML CSS and JS
CO410.4 Maintain and support web apps
CO410.2 Design Responsive sites
Department: IT Year/Sem: IV/VIII
Course Outcome No. Course Outcome
After successful completion of the course, the students should be able to
CO411.2 Plan and build the project team with assigned responsibilities
CO411.1 Identify Technically and economically feasible problems of social relevance
CO411.3 Identify and survey the relevant literature for getting exposed to related solutions
CO411.4 Analyze,design and develop adaptable and reusable solutions of minimal complexity by using modern tools
CO411.5 Implement and test solutions to trace against the user requirements
C0411.6 Develop and support the solutions for better manageability of the solutions provide scope for improvability.
CO411
Subject Code & Name : IT8811 Project work
S.NO COURSE CODE COURSE TITLE L T P C
1 HS8151 Communicative english 4 0 0 4
2 MA8151 Engineering Mathematics – I 4 0 0 4
3 PH8151 Engineering Physics 3 0 0 3
4 CY8151 Engineering Chemistry 3 0 0 3
5 GE8151 Problem Solving and Python Programming 3 0 0 3
6 GE8152 Engineering Graphics 6 0 4 4
7 GE8161 Problem Solving and Python Programming Laboratory 0 0 4 2
8 BS8161 Physics and Chemistry laboratory 0 0 4 2
S.NO COURSE CODE COURSE TITLE L T P C
1 HS8251 Technical English 4 0 0 4
2 MA8251 Engineering Mathematics – II 3 0 0 3
3 PH8251 Material Science 3 0 0 3
4 BE8253 Basic Electrical, Electronics and Instrumentation Enginee 3 0 0 3
5 GE8291 Environmental Science and Engineering 3 0 0 3
6 GE8292 Engineering Mechanics 3 2 0 4
7 GE8261 Engineering Practices laboratory 0 0 4 2
8 BE8261 Basic Electrical, Electronics and Instrumentation Laboratory
0 0 4 2
S.NO COURSE CODE COURSE TITLE L T P C
1 MA8353 Transforms and Partial Differential Equations 4 0 0 4
2 ME8391 Engineering Thermodynamics 5 2 0 4
3 CE8394 Fluid Mechanics and Machinery 4 0 0 4
4 ME8351 Manufacturing Technology I 3 0 0 3
5 EE8353 Electrical Drives and Controls 3 0 0 3
6 ME8361 Manufacturing Technology Laboratory I 0 0 4 2
7 ME8381 Computer Aided Machine Drawing 0 0 4 2
8 EE8361 Electrical Engineering Laboratory 0 0 4 2
9 HS8381 Interpersonal skill/Listening & Speaking 0 0 2 1
S.NO COURSE CODE COURSE TITLE L T P C
1 MA8452 Statistics and Numerical Methods 4 0 0 4
2 ME8492 Kinematics of Machinery 3 0 0 3
3 ME8451 Manufacturing Technology II 3 0 0 3
4 ME8491 Engineering Metallurgy 3 0 0 3
5 CE8395 Strength of Materials for Mechanical Engineers 3 0 0 3
6 ME8493 Thermal Engineering I 3 0 0 3
REGULATION - 2017
THEORY
PRACTICALS
THEORY
PRACTICALS
SEMESTER 3
THEORY
SEMESTER 4
PRACTICALS
THEORY
PRACTICALS
SEMESTER 2
SEMESTER 1
JEPPIAAR INSTITUTE OF TECHNOLOGY
"Self Belief | Self Discipline | Self Respect"
DEPARTMENT OF MECHANICAL ENGIEEERING
I - VIII SEMESTERS CURRICULUM & SYLLABUS
7 ME8462 Manufacturing Technology Laboratory II 0 0 4 2
8 CE8381 Strength of Materials and Fluid Mechanics and Machinery Laboratory
0 0 4 2
9 HS8461 Advanced Reading and Writing 0 0 2 1
S.NO COURSE CODE COURSE TITLE L T P C
1 ME8595 Thermal Engineering II 3 0 0 3
2 ME8593 Design of Machine Elements 3 0 0 3
3 ME8501 Metrology and Measurements 3 0 0 3
4 ME8594 Dynamics of Machines 4 0 0 4
5 OAT552 Internal Combustion Engines 3 0 0 3
6 ME8511 Kinematics and Dynamics Laboratory 0 0 4 2
7 ME8512 Thermal Engineering Laboratory 0 0 4 2
8 ME8513 Matrology and Measurements Laboratory 0 0 4 2
S.NO COURSE CODE COURSE TITLE L T P C
1 ME8651 Design of Transmission Systems 3 0 0 3
2 ME8691 Computer Aided Design and Manufacturing 3 0 0 3
3 ME8693 Heat and Mass Transfer 3 2 0 4
4 ME8692 Finite Element Analysis 3 0 0 3
5 ME8694 Hydraulics and Pneumatics 3 0 0 3
6 ME8091 Automobile Engineering 3 0 0 3
7 ME8681 CAD/CAM Laboratory 0 0 4 2
8 ME8682 Design and Fabrication Project 0 0 4 2
9 HS8581 Professional Communication 0 0 2 1
S.NO COURSE CODE COURSE TITLE L T P C
1 ME8792 Power Plant Engineering 3 0 0 3
2 ME8793 Process Planning and Cost Estimation 3 0 0 3
3 ME8791 Mechatronics 3 0 0 3
4 OML751 Testing of Materials 3 0 0 3
5 ME8073 Unconventional Machining Processes 3 0 0 3
6 ME8097 Non Destructive Testing and Evaluation 3 0 0 3
7 ME8711 Simulation and Analysis Laboratory 0 0 4 2
8 ME8781 Mechatronics Laboratory 0 0 4 2
9 ME8712 Technical Seminar 0 0 2 1
S.NO COURSE CODE COURSE TITLE L T P C
1 MG8591 Principles of Management 3 0 0 3
2 Professional Elective-IV 3 0 0 3
3 ME8811 Project Work 20 10
PRACTICALS
SEMESTER 7
THEORY
PRACTICALS
SEMESTER 8
THEORY
PRACTICALS
SEMESTER 6
THEORY
PRACTICALS
SEMESTER 5
THEORY
Highest Cognitive Level
K3, A2
K2, A2
A2
A2
A3
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K3
K2
CO105.4 Examine the programs with sub problems using ‘Python’ language
CO105.5 Compute the compound data using Python lists, tuples, and dictionaries
CO105.1 Discuss the logical solutions through Flowcharts, Algorithms and Pseudo code.
CO105.2 Explain the syntax for python programming constructs.
CO105.3 Compute the flow of the program to obtain the programmatic solution.
Course Outcome No.105
Subject Code & Name : GE8151-problem solving and python programming Department: MECH Year/Sem: I/01
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
SEMESTER 1
Subject Code & Name : HS8151 -communicative english Year/Sem: I/01Department: MECH
Subject Code & Name : MA8151 - Engineering Mathematics – I Department: MECH
CO104.5 Classify the types of batteries, their reactions and the significance of storage renewable energy resources.
Course Outcome No.104
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO104.1 Predict the type of troubles present in boilers and the methods used to treat hard water.
Subject Code & Name :CY8151-Engineering Chemistry Department: MECH Year/Sem: I/01
CO104.2 Identify the factors affecting the rate of adsorption and catalytic activity.
CO104.3 Interpret the Concept of phase rule, its various phase diagrams and predict the low melting alloys
CO104.4 Enumerate various solid, liquid and gaseous fuels, manufacturing methods and basic reactions involved in combustion reactions
CO103.5 Summarize the basics of crystals and their structures and different crystal growth techniques
CO103.1 Explain the basics of properties of matter and its applications.
CO103.2 Identify the concepts of waves and optical devices and their applications in fibre optics
CO103.3 Demonstrate the concepts of thermal properties of materials and their applications in expansion joints and heat exchangers
Course Outcome No. Course Outcome
Subject Code & Name :PH8151 - Engineering Physics Department: MECH Year/Sem: I/01
CO103.4 Describe advanced physics concepts of quantum theory and its applications in tunneling microscopes
Course Outcome No.101
Course Outcome No.102
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Year/Sem: I/01
CO101.5 Listen, comprehend and respond to different spoken and written discourses/excerpts in different accents and write different genres of texts adopting various writing strategies.
CO101.2 Strengthen general comprehending skills and present lucid skills in free writing
CO101.3 Foster an environment for reading and develop good language skills.
CO101.4 Speak, read and write effectively for a variety of professional and social settings
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO101.1 Enable the development of basic grammar to enhance language for a better communication
CO102.4 Associate integration to compute multiple integrals, area, volume, integrals in polar coordinates, in addition to change of order and change of variables
CO102.5 Explain various techniques in solving differential equations
CO102.1 Use both the limit definition and rules of differentiation to differentiate functions
CO102.2 Associate differentiation to solve maxima and minima problems
CO102.3 Discuss integrals both by using Riemann sums and by using the Fundamental Theorem of Calculus Also Evaluate integrals using techniques of in
Course Outcome No.103
After successful completion of the course, the students should be able to
K3
Highest Cognitive Level
K2
K1
K3
K3
K1
K3
Highest Cognitive Level
K1
K3
K3
K3
K1
K3
A3
A3
A3
A2
Highest Cognitive Level
K2
K2
K2
K2
K2
K2
K2
K2
K2
K2
A3
A3
A3
A2
CO108.1 Determine the Modulus of elasticity of materials and Coefficient of Viscosity of liquids.
Course Outcome No.108
Subject Code & Name :BS8161 -Physics and chemistry laboratory Department: MECH Year/Sem: I/01
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO107.9 Express the Engineering activities with effective presentation and report.
CO107.10 Interpret the findings with appropriate technological / research citation.
CO107.1 Write, test, and debug simple Python programs.
CO107.7 Exhibit ethical principles in engineering practices.
CO107.8 Perform task as an individual and / or team member to manage the task in time.
CO107.2
CO107.3
CO107.4
CO107.5
CO107.6
Course Outcome No.107
Subject Code & Name : GE8161- Problem solving and python programming labora Department: MECH Year/Sem: I/01
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO106.6 Apply the concept of drawing in practical applications.
CO106.3 Classify solids and projection of solids at different positions.
CO106.4 Show sectioned view of solids and development of surface.
CO106.5 Draw isometric projection and perspective views of an object/solid.
Course Outcome No. Course Outcome
CO106.1 Discuss about conics and orthographic views of engineering components.
CO106.2 Draw the projection of points, lines and planes.
CO105.6 Apply python programs to read and write data from/to files
Course Outcome No.106
Subject Code & Name : GE8152 - Engineering Graphics Department: MECH Year/Sem: I/01
After successful completion of the course, the students should be able to
Apply the concept of conditionals and loops in Python programs.
Develop the Python programs step-wise by defining functions and calling them.
Use Python lists, tuples, dictionaries for representing compound data.
Read and write data from/to files in Python.
Apply the concept of Pygame.
CO108.2 Determine the Thermal Conductivity of bad conductor using Lee’s disc method
CO108.3 Calculate the Compressibility of liquids and velocity of ultrasonic waves in liquids.
CO108.4 Measure the wavelength of prominent spectral lines of Mercury Spectrum and particle size of powder using diffraction phenomenon and thickness of thin materials using interference phenomenon.
CO108.5 Determine the band gap energy of a semiconductor.
CO108.6 Calculate water quality parameters such as hardness, alkalinity of the given water sample.
CO108.12 Perform task as an individual and / or team member to manage the task in time.
CO108.13 Express the Engineering activities with effective presentation and report.
CO108.14 Interpret the findings with appropriate technological / research citation.
CO108.7 Estimate the amount of the given acids using conductometric titrations.
CO108.8 Estimate the amount of the given acids using pH titrations.
CO108.9 Determine the amount of iron content in the given substance using potentiometric titration.
CO108.10 Determine the amount of chloride content in the given water sample.
CO108.11 Exhibit ethical principles in engineering practices.
Highest Cognitive Level
K2,A2
K3,A2
K3,A2
A2
A3
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K1
Course Outcome No.114
CO113.3 Describe the importance of natural resources and Disaster management.
CO113.4 Illustrate the importance of environment by assessing its impact on the human world.
CO113.5 Summarize the population related issues and types of welfare programmes in the society.
Course Outcome No. Course Outcome
CO113.1 Interpret the basic concept of Ecosystems and Biodiversity.
CO113.2 Distinguish the types of pollution and its control measures.
Course Outcome No.113
Subject Code & Name : GE8291 & Environmental Science and Engineering Department: MECH Year/Sem: I/02
After successful completion of the course, the students should be able to
Explaining the construction, working principle of AC and DC machines.
CO112.4 Explaining the concepts of various electronic devices and circuits and its applications
CO112.5 Discussing about various instruments for electrical measurement for a specific application
Course Outcome No. Course Outcome
CO112.1 Discussing the electric circuits fundamentals and solving the network by using various Theorems. and working principles of electrical machines
CO112.2 Analysing the Concepts of A.C. Circuits and House wiring,Industrial wiring
CO111.3 Describe mechanical properties of materials and their measurements.
CO111.4 Demonstrate magnetic, dielectric and superconducting properties of materials
CO111.5 Elucidate the basics of ceramics, composites, metallic glasses, smart materials, nanomaterial and carbon nanotubes
Course Outcome No. Course Outcome
CO111.1 Explain phase rule, lever rule, Tie-Line rule, solid solutions, various phase diagrams and their applications
CO111.2 Illustrate Fe-Fe3C phase diagram, microstructures of steel during cooling and alloys
Subject Code & Name : PH8251 & Material Science Department: MECH Year/Sem: I/02
After successful completion of the course, the students should be able to
Discuss Laplace Transform methods to solve initial value problems for constantcoefficient linear ODEs.
Course Outcome No. Course Outcome
CO110.1 Diagonalize symmetric matrices and similar matrices using Eigen values andEigen vectors.
CO110.2 Explain gradients, potential functions, and directional derivatives of functions of several variables. Also Compute line, surface and volume integral using G
Course Outcome No.111
CO109.5 Debate the issues and find the rudiments of the problem individually and as a group.And respond intelligently and seek clarification and understand complet
Course Outcome No. Course Outcome
CO109.1 Breakdown the ideas in to its elementary constituents, analyze and act after a meaning full thought process.
CO109.2 Analyze the phrase and passage and explicitly pass on the ideas meaning fully.
SEMESTER-2
Course Outcome No.109
Subject Code & Name : HS8251 & Technical English Department: MECH Year/Sem: I/02
After successful completion of the course, the students should be able to
CO109.3 Manage to interpret the given phrase or the graphical rendering and review the contentswell individually or as a group.
CO109.4 Concentrate on the communication aspect of complicated ideas and respond positively.
Course Outcome No.112Subject Code & Name : BE8253 & Basic Electrical, Electronics and Instrumentation Engineering
Department: MECH Year/Sem: I/02
After successful completion of the course, the students should be able to
CO112.3
Course Outcome No.110
Subject Code & Name : MA8251 & Engineering Mathematics – II Department: MECH Year/Sem: I/02
After successful completion of the course, the students should be able to
CO110.3 Discuss analytic functions in heat and fluid flow.
CO110.4 Extend the concept of contour integrals in evaluating Real integrals.
CO110.5
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
A3
A3
A3
A2
Highest Cognitive Level
K2
K2
K2
A3
A3
A3
A2
CO116.3 Ability to use operational amplifiers
CO116.4 Exhibit ethical principles in engineering practices.
CO116.7 Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO116.1 Ability to determine the speed characteristic of different electrical machines
CO116.2 Ability to design simple circuits involving diodes and transistors
CO116.5 Perform task as an individual and / or team member to manage the task in time.
CO116.6 Express the Engineering activities with effective presentation and report.
Course Outcome No.116
Subject Code & Name : BE8261 & Basic Electrical, Electronics and Instrumentation Laboratory
Department: MECH Year/Sem: I/02
After successful completion of the course, the students should be able to
CO115.3 Perform step turning operation in a lathe.
CO115.4 Perform the various welding processes and know about its applications.
CO115.5 Produce a funnel using sheet metal.
Course Outcome No. Course Outcome
CO115.1 Apply the knowledge of pipeline connections to household fittings and industrial buildings.
CO115.2 Prepare the different joints in roofs, doors, windows and furniture.
Course Outcome No.115
Subject Code & Name : GE8261 Engineering Practices laboratory Department: MECH Year/Sem: I/02
After successful completion of the course, the students should be able to
CO114.3 Compute the centroid, second moment of area, center of gravity, product moment of inertia and mass moment of inertia.
CO114.4 Compute the motion parameters like displacement, velocity, acceleration using dynamics.
CO114.5 Compute the reaction force by applying principles of friction and the motion parameters of rigid body.
Course Outcome No. Course Outcome
CO114.1 Compute the resultant force for planar and spatial system of forces.
CO114.2 Estimate the force, moment for planar and spatial system of forces.
Subject Code & Name : GE8292 & Engineering Mechanics Department: MECH Year/Sem: I/02
After successful completion of the course, the students should be able to
CO115.6 Exhibit ethical principles in engineering practices.
CO115.7 Perform task as an individual and / or team member to manage the task in time.
CO115.8 Express the Engineering activities with effective presentation and report.
CO115.9 Interpret the findings with appropriate technological / research citation.
Highest Cognitive Level
K3
K3
K3
K4
K3
Highest Cognitive Level
K3
K3
K3
K2
K3
Highest Cognitive Level
K2
K3
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K3
K3
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Course Outcome No.206
Subject Code & Name : ME8361 & Manufacturing Technology Laboratory I Department: MECH Year/Sem: II/03
CO205.3 Describe the different starting methods of DC motors and three phase motors
CO205.4 Contrast with the conventional and solid-state control of DC drives and their applications
CO205.5 Discuss the speed control of AC machines and the using of converters in their applications
Course Outcome No. Course Outcome
CO205.1 Explain the basic concepts of Electric drives and the loading conditions with selection of rating for drive motors
CO205.2 Summarize the different characteristics of DC shunt motors with braking mechanisms and type of loads
Course Outcome No.205
Subject Code & Name : EE8353 & Electrical Drives and Controls Department: MECH Year/Sem: II/03
After successful completion of the course, the students should be able to
CO204.3 Employ the appropriate metal forming techniques to produce components like hexagonal bolt, nut etc.,
CO204.4 Illustrate the various sheet metal forming processes for a specific application.
CO204.5 Describe the properties and bonding techniques of plastics and various plastic molding techniques.
Course Outcome No. Course Outcome
CO204.1 Explain the process of making patterns, preparation of sand mould, various special casting processes and casting defects.
CO204.2 Describe various fusion, pressure, friction and special welding processes, soldering and brazing processes.
Course Outcome No.204
Subject Code & Name : ME8351 & Manufacturing Technology I Department: MECH Year/Sem: II/03
After successful completion of the course, the students should be able to
CO203.6 Design and solve problems and power required to drive the different types of turbines.
CO203.3 Design, solve and apply problems related to Dimensional Parameters and Analysis.
CO203.4 Design and solve problems related to Similarity laws and Model Analysis.
CO203.5 Design and solve problems and power required to drive the different types of pumps.
Course Outcome No. Course Outcome
CO203.1 Apply and Solve problems related to the properties of the fluids and mechanics of fluids
CO203.2 Analyze the concept of dynamics of fluids, control volume approach, transportation of mass, momentum and energy principles, laws of flow through pipes e
After successful completion of the course, the students should be able to
CO202.1 Apply the first law of thermodynamics for simple open and closed systems under steady and unsteady conditions.
CO202.2 Apply second law of thermodynamics to open and closed systems and calculate entropy and availability.
Course Outcome No.203
Subject Code & Name : CE8394 & Fluid Mechanics and Machinery Department: MECH Year/Sem: II/03
C201.5 Use the effective mathematical tools for the solutions of partial differential equations by using Z transform techniques for discrete time systems
Course Outcome No. Course Outcome
C201.1 Understand how to solve the given standard partial differential equations
C201.2 Solve differential equations using Fourier series analysis which plays a vital role in engineering applications
SEMESTER 3
Course Outcome No.201
Subject Code & Name :MA8353 & Transforms and Partial Differential Equations Department: MECH Year/Sem: II/03
After successful completion of the course, the students should be able to
C201.3 Appreciate the physical significance of Fourier series techniques in solving one and two dimensional heat flow problems and one dimensional wave e
C201.4 Understand the mathematical principles on transforms and partial differential equations would provide them the ability to formulate and solve some of
Course Outcome No.202
Subject Code & Name : ME8391 & Engineering Thermodynamics Department: MECH Year/Sem: II/03
After successful completion of the course, the students should be able to
CO202.3 Analyze performance of steam power plant.
CO202.4 Understand the concept of simple thermodynamic relations of ideal and real gases.
CO202.5 Analyze the properties of gas mixtures and moist air.
Course Outcome No. Course Outcome
Highest Cognitive Level
K2
K2
K3
K3
K2
A3
A3
A3
A2
Highest Cognitive Level
K2
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K5
K5
K5
K5
K5
A3
A3
A3
A2
Highest Cognitive Level
K2
K2
K2
K2
K2
A3
A3
A3
A2
CO209.3 Practice on national and international exams to improve the verbal ability of the students
CO209.4 Fosters interview skills so as to be successful in them.
CO209.5 Promotes adequate Soft Skills required for the workplace and long-term career.
Course Outcome No. Course Outcome
CO209.1 Involves the students in Presentations and Group Discussions to improve the listening and speaking skills
CO209.2 Analyse, distinguish and Prepare their own resume and report.
Course Outcome No.209
Subject Code & Name : HS8381& Interpersonal skill/Listening & Speaking Department: MECH Year/Sem: II/03
After successful completion of the course, the students should be able to
CO208.4 skilled to find V curves and inverted V curves of synchronous motor
CO208.5 ability to find load test and speed control on sinfle phase and three phase induction motor.
Course Outcome No. Course Outcome
CO208.1 skilled to perform load test O.C.C and Load characteristics of DC Shunt and DC Series generator
CO208.2 ability to perform load test, O.C & S.C on a single phase transformer
CO207.8 Express the Engineering activities with effective presentation and report.
CO207.9 Interpret the findings with appropriate technological / research citation.
Course Outcome No.208
Subject Code & Name : EE8361 & Electrical Engineering Laboratory Department: MECH Year/Sem: II/03
CO207.3 Recreate part drawings using CAD software.
Course Outcome No. Course Outcome
CO207.1 Understand the drawing standards, fits and tolerances.
CO207.2 Understand the 2D drafting techniques.
CO207.7 Perform task as an individual and / or team member to manage the task in time
CO206.3 Employ the appropriate metal forming techniques to produce components like hexagonal bolt, nut etc.,
CO206.4 Illustrate the various sheet metal forming processes for a specific application.
CO206.5 Describe the properties and bonding techniques of plastics and various plastic molding techniques.
Course Outcome No. Course Outcome
CO206.1 Explain the process of making patterns, preparation of sand mould, various special casting processes and casting defects.
CO206.2 Describe various fusion, pressure, friction and special welding processes, soldering and brazing processes.
After successful completion of the course, the students should be able to
CO206.6 Exhibit ethical principles in engineering practices
CO206.7 Perform task as an individual and / or team member to manage the task in time
CO206.8 Express the Engineering activities with effective presentation and report.
CO206.9 Interpret the findings with appropriate technological / research citation.
CO207.6 Exhibit ethical principles in engineering practices
Course Outcome No.207
Subject Code & Name : ME8381 & Computer Aided Machine Drawing Department: MECH Year/Sem: II/03
After successful completion of the course, the students should be able to
CO209.6 Exhibit ethical principles in engineering practices
CO209.7 Perform task as an individual and / or team member to manage the task in time
CO209.8 Express the Engineering activities with effective presentation and report.
CO209.9 Interpret the findings with appropriate technological / research citation.
CO208.6 Exhibit ethical principles in engineering practices
CO208.7 Perform task as an individual and / or team member to manage the task in time
CO208.8 Express the Engineering activities with effective presentation and report.
CO208.9 Interpret the findings with appropriate technological / research citation.
After successful completion of the course, the students should be able to
CO208.3 ability to find regulation of an alternator by EMF & MMF methods
Highest Cognitive Level
K2
K3
K2
K4
K3
Highest Cognitive Level
K2
K3
K3
K3
K3
Highest Cognitive Level
K2
K2
K2
K4
K2
Highest Cognitive Level
K2
K3
K3
K3
K2
Highest Cognitive Level
K2
K3
K2
K2
K2
CO214.3 Apply basic equation of simple torsion in designing of shafts and helical spring
CO214.4 Calculate the slope and deflection in beams using different methods.
CO214.5 Analyze and design thin and thick shells for the applied internal and external pressures.
Course Outcome No. Course Outcome
CO214.1 Understand the concepts of stress and strain in simple and compound bars, the importance of principal stresses and principal planes.
CO214.2 Understand the load transferring mechanism in beams and stress distribution due to shearing force and bending moment.
Course Outcome No.214Subject Code & Name : CE8395 & Strength of Materials for Mechanical Engineers
Department: MECH Year/Sem: II/04
After successful completion of the course, the students should be able to
Course Outcome
CO212.1
CO213.3 Clarify the effect of alloying elements on ferrous and non-ferrous metals
CO213.4 Summarize the properties and applications of non metallic materials.
CO213.5 Explain the testing of mechanical properties. .
Course Outcome No. Course Outcome
CO213.1 Explain alloys and phase diagram, Iron-Iron carbon diagram and steel classification.
CO213.2 Explain isothermal transformation, continuous cooling diagrams and different heat treatment processes.
Explain the mechanics of metal cutting, cutting tool materials, tool wear and cutting fluids.
CO212.2 Discuss about the constructional feature of different types of lathe and their operations.
CO212.3 Describe the construction & working of shaping, milling &drilling machines and gear cutting & finishing process.
CO212.4 Illustrate the various types of grinding machines and broaching machines.
CO212.5 Explain the construction feature of different typesof CNC machine and manual part programming for a given component.
Explain the basics of mechanism
C0211.2 Determine velocity and acceleration in simple mechanisms
Course Outcome No.213
Subject Code & Name : ME8491 & Engineering Metallurgy Department: MECH Year/Sem: II/04
After successful completion of the course, the students should be able to
Course Outcome No.212
Subject Code & Name : ME8451 & Manufacturing Technology II Department: MECH Year/Sem: II/04
After successful completion of the course, the students should be able to
Course Outcome No.
CO210.5 Solve the partial and ordinary differential equations with initial and boundary conditions by using certain techniques with engineering applications
Course Outcome No. Course Outcome
CO210.1 Apply the concept of testing of hypothesis for small and large samples in real life problems.
CO210.2 Apply the basic concepts of classifications of design of experiments in the field of agriculture.
SEMESTER 4
Course Outcome No.210
Subject Code & Name :MA8452 Statisitcs and Numerical Methods Department: MECH Year/Sem: II/04
After successful completion of the course, the students should be able to
CO210.3 Appreciate the numerical techniques of interpolation in various intervals and apply the numerical techniques of differentiation and integration for engineering
CO210.4 Understand the knowledge of various techniques and methods for solving first and second order ordinary differential equations.
Course Outcome No.211
Subject Code & Name : ME8492 & Kinematics of Machinery Department: MECH Year/Sem: II/04
After successful completion of the course, the students should be able to
C0211.3 Develop CAM profiles
C0211.4 Solve problems on gears and gear trains
C0211.5 Examine friction in machine elements
Course Outcome No. Course Outcome
C0211.1
Highest Cognitive Level
K3
K3
K2
K2
K3
Highest Cognitive Level
K3
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K2
K3
K2
A3
A3
A3
A2
Highest Cognitive Level
K2
K2
K2
K2
K2
A3
A3
A3
A2
CO218.2 Enhance their writing skills with specific reference to technical writing.
CO218.3 Develop students‘ critical thinking skills
CO218.4 Develop felicity of expression and familiarity with technology enabled Communication
CO218.5 Foster an environment for reading and develop good language skills.
CO218.6 Exhibit ethical principles in engineering practices
CO218.7 Perform task as an individual and / or team member to manage the task in time
CO218.8 Express the Engineering activities with effective presentation and report.
CO218.9
Subject Code & Name :HS8461 & Advanced Reading and Writing Department: MECH Year/Sem: II/04
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO218.1 Strengthen the reading skills of students through reading activities.
Interpret the findings with appropriate technological / research citation.
Course Outcome No.218
Perform Tension, Torsion, Hardness, Compression, and Deformation test on Solid materials.
CO217.2 Use the measurement equipments for flow measurement.
CO217.5 Perform task as an individual and / or team member to manage the task in time
CO217.6 Express the Engineering activities with effective presentation and report.
CO217.7 Interpret the findings with appropriate technological / research citation.
CO216.3 Complete gear using gear shaping machine and demonstrate plain surface grinding operation.
Course Outcome No. Course Outcome
CO216.1 Demonstrate contour milling and generate a spur gear from a cylindrical work piece.
CO216.2 Experiment helical gear cutting operation and generate gear using hobbing machine
CO215.3 Explain the functioning and features of IC engines, components and auxiliaries
CO215.4 Calculate performance parameters of IC Engines.
CO215.5 Explain the flow in Gas turbines and solve problems.
Course Outcome No. Course Outcome
CO215.1 Apply thermodynamic concepts to different air standard cycles and solve problems.
CO215.2 Solve problems in single stage and multistage air compressors
Course Outcome No.215
Subject Code & Name : ME8493 & Thermal Engineering I Department: MECH Year/Sem: II/04
After successful completion of the course, the students should be able to
Exhibit ethical principles in engineering practices
CO216.7 Perform task as an individual and / or team member to manage the task in time
CO216.8 Express the Engineering activities with effective presentation and report.
CO216.9 Interpret the findings with appropriate technological / research citation.
CO217.4 Exhibit ethical principles in engineering practices
Course Outcome No.217Subject Code & Name :CE8381 & Strength of Materials and Fluid Mechanics and Machinery Laboratory
Department: MECH Year/Sem: II/04
After successful completion of the course, the students should be able to
Course Outcome No.216
Subject Code & Name : ME8462 & Manufacturing Technology Laboratory II Department: MECH Year/Sem: II/04
After successful completion of the course, the students should be able to
CO216.4 Experiment cylindrical grinding operation and practice Tool angle grinding with tool and Cutter Grinder.
CO216.5 Experiment the Measure cutting forces in Milling / Turning Process and develop CNC part programming.
CO217.3 Perform test on different fluid machinery.
Course Outcome No. Course Outcome
CO217.1
CO216.6
Highest Cognitive
K3
K2
K3
K2
K3
Highest Cognitive
K2
K3
K3
K3
K3
Highest Cognitive
K2
K2
K2
K2
K2
Highest Cognitive
K5
K5
K4
K4
K5
Highest Cognitive
K3
K4
K3
K3
K3
Highest Cognitive
K2
K2
K2
K5
K5
A3
A3
A3
A2
Highest Cognitive
K5
K3
K5
K5
K3
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive
K3
K3
K4
K4
K4
A3
A3
A3
A2
CO307.9 Apply the principles of vapour compression cycle in refrigerators and air conditioning systems.
CO308.3 Construct the torque characteristic curves to various loads at various distances.
Course Outcome No. Course Outcome
CO308.1 Check the dimensions and the dimensional deviations of given parts.
CO308.2 Inspect the dimensions, angularity and parallelism of a given component.
CO307.6 Analyze various performance parameters of steam generators and turbines.
CO307.7 Predict the heat transfer coefficient for various engineering applications
CO307.8 Analyze the performance of heat exchangers
Course Outcome No. Course Outcome
CO307.1 Construct the valve timing and port timing diagrams.
CO307.2 Generate actual p – v diagram for an internal combustion engine.
CO307.3 Analyze various performance parameters and sketch performance curves for an internal combustion engine.
CO307.4 Estimate various losses in an internal combustion engine and prepare heat balance sheet.
CO307.5 Identify flash and fire points of oils and lubricants.
CO306.3 Illustrate Cam profile drawing, Motion curves and study of jump phenomenon
CO306.4 Determine mass moment of inertia of mechanical element, governor effort and range sensitivity, natural frequency and damping coefficient.
CO306.5 Determine torsional frequency, critical speeds of shafts, balancing mass of rotating and reciprocating masses, and transmissibility ratio.
Course Outcome No. Course Outcome
CO306.1 Explain gear parameters, velocity ratios of simple, compound, Epicyclic and differential gear trains.
CO306.2 Explain Kinematics of Four Bar, Slider Crank, Crank Rocker, Double crank, Double rocker, Oscillating cylinder Mechanisms.
Course Outcome No.306
Subject Code & Name :ME8511 & Kinematics and Dynamics Laboratory Department: MECH Year/Sem: III/05
After successful completion of the course, the students should be able to
CO305.3 Explain the concepts of Diesel engine fuel injecction, ignition and different stages of combustion in CI engines
CO305.4 Analyze different cooling and lubrication systems used in IC engines
CO305.5 Explain the construction and working concepts of modern technologies in IC engines.
Course Outcome No. Course Outcome
CO305.1 Explain the design and operating parameters of an engine and analyze thermodynamic concepts of fuel- air cycles.
CO305.2 Summarize the concepts of petrol engine fuel injecction, ignition and different stages of combustion in SI engines
Course Outcome No.305
Subject Code & Name : OAT552 & Internal Combustion Engines Department: MECH Year/Sem: III/05
After successful completion of the course, the students should be able to
CO304.3 Examine the frequency of free vibration.
CO304.4 Examine the frequency of forced vibration and damping coefficient.
CO304.5 Evaluate the speed and lift of the governor and estimate the gyroscopic effect on automobiles, ships and airplanes.
Course Outcome No. Course Outcome
CO304.1 Evaluate static and dynamic forces of mechanisms.
CO304.2 Evaluate the balancing masses and their locations of reciprocating and rotating masses.
Course Outcome No.304
Subject Code & Name: ME8594 & Dynamics of Machines Department: MECH Year/Sem: III/05
After successful completion of the course, the students should be able to
CO303.3 Describe the working principle of auto collimator, CMM and list the applications of them.
CO303.4 Explain the various form measurements like thread, gear, straightness, flatness, roundness and surface finish.
CO303.5 Discuss the working of miscellaneous measuring equipment for measuring temperature, velocity, pressure.
Course Outcome No. Course Outcome
CO303.1 Discuss the measurement systems, units and dimensions, calibration and correction.
CO303.2 Explain the various linear and angular measurement systems and understand the concept of interchangeability
Course Outcome No.303
Subject Code & Name : ME8501 & Metrology and Measurements Department: MECH Year/Sem: III/05
After successful completion of the course, the students should be able to
Apply the concepts of design to energy absorbing members, connecting rod and crank shaft.
CO302.5 Apply the concepts of design to bearings.
Course Outcome No. Course Outcome
CO302.1 Explain the influence of steady and variable stresses in machine component design.
CO302.2 Apply the concepts of design to shafts, keys and couplings.
CO301.5 Solve problems using refrigerant table / charts and psychrometric charts
Course Outcome No. Course Outcome
CO301.1 Solve problems in Steam Nozzle
CO301.2 Explain the functioning and features of different types of Boilers and auxiliaries andcalculate performance parameters.
SEMESTER 5
Course Outcome No.301
Subject Code & Name : ME8595 & Thermal Engineering II Department: MECH Year/Sem: III/05
After successful completion of the course, the students should be able to
CO301.3 Explain the flow in steam turbines, draw velocity diagrams for steam turbines and solveproblems.
CO301.4 Summarize the concept of Cogeneration, Working features of Heat pumps and Heatexchangers
CO308.7 Perform task as an individual and / or team member to manage the task in time
CO308.8 Express the Engineering activities with effective presentation and report.
CO308.9 Interpret the findings with appropriate technological / research citation.
CO307.6 Exhibit ethical principles in engineering practices
CO307.7 Perform task as an individual and / or team member to manage the task in time
CO307.8 Express the Engineering activities with effective presentation and report.
CO307.9 Interpret the findings with appropriate technological / research citation.
Course Outcome No.308
Subject Code & Name : ME8513 & Metrology and Measurements Laboratory Department: MECH Year/Sem: III/05
After successful completion of the course, the students should be able to
CO308.4 Evaluate the straightness of surfaces and determine size of irregularities on a machined surface.
CO308.5 Measure the vertical distances or height of objects, taper angle of slope for a given component, various parameters of threads and gear whee
CO306.6 Exhibit ethical principles in engineering practices
CO306.7 Perform task as an individual and / or team member to manage the task in time
CO306.8 Express the Engineering activities with effective presentation and report.
CO306.9 Interpret the findings with appropriate technological / research citation.
CO308.6 Exhibit ethical principles in engineering practices
Course Outcome No.307
Subject Code & Name : ME8512 & Thermal Engineering Laboratory Department: MECH Year/Sem: III/05
After successful completion of the course, the students should be able to
Course Outcome No.302
Subject Code & Name : ME8593 & Design of Machine Elements Department: MECH Year/Sem: III/05
After successful completion of the course, the students should be able to
CO302.3 Apply the concepts of design to temporary and permanent joints.
CO302.4
Highest Cognitive Level
K3
K3
K3
K3
K3
Highest Cognitive Level
K2
K2
K2
K3
K2
Highest Cognitive Level
K3
K3
K3
K3
K3
Highest Cognitive Level
K2
K3
K3
K3
K3
Highest Cognitive Level
K2
K2
K3
K4
K3
CO313.3 Explain the different types of Hydraulic circuits and systems
CO313.4 Explain the working of different pneumatic circuits and systems
CO313.5 Summarize the various trouble shooting methods and applications of hydraulic and pneumatic systems.
Course Outcome No. Course Outcome
CO313.1 Explain the Fluid power and operation of different types of pumps.
CO313.2 Summarize the features and functions of Hydraulic motors, actuators and Flow control valves
Course Outcome No.313
Subject Code & Name : ME8694 & Hydraulics and Pneumatics Department: MECH Year/Sem: III/06
After successful completion of the course, the students should be able to
CO312.3 Apply finite element formulations to solve two dimensional scalar Problems.
CO312.4 Apply finite element method to solve two dimensional Vector problems.
CO312.5 Apply finite element method to solve problems on iso parametric element and dynamic Problems.
Course Outcome No. Course Outcome
CO312.1 Summarize the basics of finite element formulation.
CO312.2 Apply finite element formulations to solve one dimensional Problems
Course Outcome No.312
Subject Code & Name : ME8692 & Finite Element Analysis Department: MECH Year/Sem: III/06
After successful completion of the course, the students should be able to
Explain basic laws for Radiation and apply these principles to radiative heat transfer between different types of surfaces to solve problems
CO311.5 Apply diffusive and convective mass transfer equations and correlations to solve problems for different applications
Course Outcome No. Course Outcome
CO311.1 Apply heat conduction equations to different surface configurations under steady state and transient conditions and solve problems
CO311.2 Apply free and forced convective heat transfer correlations to internal and external flows through/over various surface configurations and solve problems
CO310.3 Summarize the different types of Standard systems used in CAD
CO310.4 Apply NC & CNC programming concepts to develop part programme for Lathe & Milling Machines
CO310.5 Summarize the different types of techniques used in Cellular Manufacturing and FMS
Course Outcome No. Course Outcome
CO310.1 Explain the 2D and 3D transformations, clipping algorithm, Manufacturing models and Metrics
CO310.2 Explain the fundamentals of parametric curves, surfaces and Solids
Course Outcome No.310
Subject Code & Name : ME8691 & Computer Aided Design and Manufacturing Department: MECH Year/Sem: III/06
After successful completion of the course, the students should be able to
CO309.5 apply the concepts of design to cams, brakes and clutches
Course Outcome No. Course Outcome
CO309.1 apply the concepts of design to belts, chains and rope drives.
CO309.2 apply the concepts of design to spur, helical gears.
SEMESTER 6
Course Outcome No.309
Subject Code & Name : ME8651 & Design of Transmission Systems Department: MECH Year/Sem: III/06
After successful completion of the course, the students should be able to
CO309.3 apply the concepts of design to worm and bevel gears.
CO309.4 apply the concepts of design to gear boxes .
Course Outcome No.311
Subject Code & Name : ME8693 & Heat and Mass Transfer Department: MECH Year/Sem: III/06
After successful completion of the course, the students should be able to
Explain the phenomena of boiling and condensation, apply LMTD and NTU methods of thermal analysis to different types of heat exchanger configurations
CO311.4
CO311.3
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K2
K2
K2
K2
K2
A3
A3
A3
A2
CO316.9 Interpret the findings with appropriate technological / research citation.
CO317.3 Demonstrate oneself by participating in group discussions, brainstorming sessions and question sessions. Develop activities to improve GD Skills.
Course Outcome No. Course Outcome
CO317.1 Summarize various skills such as Soft Skills, Hard skills, employability and career Skills
CO317.2 Involve oneself before the audience by doing effective presentations on introducing oneself, answering questions and visual presentations.
CO316.6 Exhibit ethical principles in engineering practices
CO316.7 Perform task as an individual and / or team member to manage the task in time
CO316.8 Express the Engineering activities with effective presentation and report.
Course Outcome No. Course Outcome
CO316.1 Design and Fabricate the machine element or the mechanical product.
CO316.2 Demonstrate the working model of the machine element or the mechanical product.
Course Outcome No.316
Subject Code & Name : ME8682 & Design and Fabrication Project Department: MECH Year/Sem: III/06
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO315.1 Follow the drawing standards, Fits and tolerence.
CO315.2 Re-create part drawing, Sectional views and assembly drawing as per the standard
Course Outcome No.315
Subject Code & Name : ME8681 & CAD/CAM Laboratory Department: MECH Year/Sem: III/06
After successful completion of the course, the students should be able to
CO314.3 distinguish the working of different types of transmission systems.
CO314.4 explain the Steering, Brakes and Suspension Systems.
CO314.5 predict possible alternate sources of energy for IC Engines.
Course Outcome No. Course Outcome
CO314.1 recognize the various parts of the automobile and their functions and materials.
CO314.2 discuss the engine auxiliary systems and engine emission control.
Course Outcome No.314
Subject Code & Name : ME8091 & Automobile Engineering Department: MECH Year/Sem: III/06
After successful completion of the course, the students should be able to
CO315.3 Exhibit ethical principles in engineering practices
CO315.4 Perform task as an individual and / or team member to manage the task in time
CO315.5 Express the Engineering activities with effective presentation and report.
CO315.6 Interpret the findings with appropriate technological / research citation.
CO317.6 Exhibit ethical principles in engineering practices
CO317.7 Perform task as an individual and / or team member to manage the task in time
CO317.8 Express the Engineering activities with effective presentation and report.
CO317.9 Interpret the findings with appropriate technological / research citation.
Course Outcome No.317
Subject Code & Name : HS8581 & Professional Communication Department: MECH Year/Sem: III/06
After successful completion of the course, the students should be able to
CO317.4 Fosters interview skills so as to be successful in them.
CO317.5 Promotes adequate Soft Skills required for the workplace and long-term career.
Highest Cognitive Level
K2
K2
K2
K2
K3
Highest Cognitive Level
K3
K3
K3
K3
K4
Highest Cognitive Level
K2
K3
K2
K2
K3
K3
Highest Cognitive Level
K2
K2
K2
K3
K3
Highest Cognitive Level
K2
K4
K2
K2
K4
Highest Cognitive Level
K2
K2
K3
K3
K2
Highest Cognitive Level
K4
K4
K4
K4
K4
A3
A3
A3
A2
Highest Cognitive Level
K2
K3
A3
A3
A3
A2
Highest Cognitive Level
K2
K2
K2
K2
K2
A3
A3
A3
A2
Course Outcome No.409
Subject Code & Name : ME8712 & Technical Seminar Department: MECH Year/Sem: IV/07
CO409.3 Outline the understanding of papers and authors contributions and critically analyzing each paper.
CO409.4 Outline the linking odf papers and preparing a draft of the paper.
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO409.1 Describe the selection of a subject, narrowing the subject into a topic and stating an objective.
CO409.2 Illustrate to collect the relevant bibliography and preparing a working outline.
CO409.7 Perform task as an individual and / or team member to manage the task in time
CO409.8 Express the Engineering activities with effective presentation and report.
CO409.9 Interpret the findings with appropriate technological / research citation.
CO409.5 Describe the writing of final Paper and giving final Presentation
CO409.6 Exhibit ethical principles in engineering practices
CO408.6 Exhibit ethical principles in engineering practices
CO408.7 Perform task as an individual and / or team member to manage the task in time
CO408.8 Express the Engineering activities with effective presentation and report.
CO408.9 Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO408.1 To design mechatronics system with the help of Pneumatic, hydraulic, electrical and PLC.
CO408.2 To demonstrate the traffic light, stepper motor interface with 8085 Microprocessor and image processing
Course Outcome No.408
Subject Code & Name : ME8781 & Mechatronics Laboratory Department: MECH Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO407.3 Perform two dimensional stress analysis in plate and asymmetric shells.
CO407.4 Analyze the temperature distribution in one dimensional heat transfer problems (walls and fins).
CO407.5 Analyze the temperature distribution in two dimensional heat transfer problems (plates and shell).
CO407.6 Exhibit ethical principles in engineering practices
CO407.7 Perform task as an individual and / or team member to manage the task in time
CO407.8 Express the Engineering activities with effective presentation and report.
CO407.9 Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO407.1 Simulate simple problems in vibrations and simple mechanisms using simulation software.
CO407.2 Perform analysis of stress, truss/beam and dynamic analysis of mechanical members.
Course Outcome No.407
Subject Code & Name : ME8711 & simulation and Analysis Laboratory Department: MECH Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO406.3 Illustrate the Thermography and Eddy current Testing Process,
CO406.4 Employ the ultrasonic testing and Acoustic Emission process.
CO406.5 Describe the principles of Radiographic techniques.
Course Outcome No. Course Outcome
CO406.1 Describe the overview process of Non Destractive Testing.
CO406.2 Explain various surface non destractive evelaution methods.
Course Outcome No.406
Subject Code & Name : ME8097 & Non Destructive Testing and Evaluation Department: MECH Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO405.3 Summarize various chemical and electro-chemical energy based unconventional machining processes.
CO405.4 Demonstrate various nano abrasives based unconventional machining processes.
CO405.5 Distinguish various recent trends based unconventional machining processes.
Course Outcome No. Course Outcome
CO405.1 Illustrate the need for unconventional machining processes and its classification
CO405.2 Compare various thermal energy and electrical energy based unconventional machining processes.
Course Outcome No.405
Subject Code & Name : ME8073 & Unconventional Machining Processes Department: MECH Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO404.3 To understand the various non destructive testing of materials
CO404.4 Ability to use the different technique and know its applications and limitations
CO404.5 Ability to use the various methods of thermal and chemical measuring instrument
Course Outcome No. Course Outcome
CO404.1 To identify the suitable testing technique to inspect industrial component
CO404.2 To understand the various mechanical testing of materials
Course Outcome No.404
Subject Code & Name : OML751 & Testing of Materials Department: MECH Year/Sem: IV/07
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO403.1 Integrate mechanical, electronics, control and computer engineering in the design of mechatronics system.
CO403.2
Course Outcome No.403
Subject Code & Name : ME8791 & Mechatronics Department: MECH Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO403.6 Construct and analyze mechatronics systems with suitable actuators.
CO403.5 Design, build, interface and actuate various systems using programmable logic controller.
CO403.3
CO403.4 Demonstrate the interfacing of various peripheral devices with the microprocessor
CO402.5 calculate the machining time for various machining operations.
Course Outcome No. Course Outcome
CO402.1 select the process, equipment and tools for various industrial products.
CO402.2 prepare process planning activity chart.
CO402.3 explain the concept of cost estimation.
Course Outcome No.402
Subject Code & Name : ME8793 & Process Planning and Cost Estimation Department: MECH Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO402.4
SEMESTER 7
Course Outcome No.401
Subject Code & Name : ME8792 & Power Plant Engineering Department: MECH Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO401.3 Explain the layout, construction and working of the components inside nuclear power plants.
CO401.4 Explain the layout, construction and working of the components inside nuclear power plants.
CO401.5 Explain the applications of power plants while extend their knowledge to power plant economics and environmental hazards and estimate the costs of elec
Course Outcome No. Course Outcome
CO401.1 Explain the layout, construction and working of the components inside a thermal power plant.
CO401.2 Explain the layout, construction and working of the components inside a Diesel, Gas and Combined cycle power plants.
compute the job order cost for different type of shop floor.
Select and apply various sensor for mechatronics system based on the requirements
Illustrate the different types of microprocessor instructions with suitable programs
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K1
K3
K5
K2
A3
A3
A3
A2Interpret the findings with appropriate technological / research citation.CO412.9
CO412.6 Exhibit ethical principles in engineering practices
CO412.7 Perform task as an individual and / or team member to manage the task in time
CO412.8 Express the Engineering activities with effective presentation and report.
CO412.3 Analyze and categorize executable project modules after considering risks and find efficient tools for execution of project modules
CO412.4 Elaborate the completed task and compile the project report.
Course Outcome No. Course Outcome
CO412.1 Identify the problem by applying acquired knowledge.
CO412.2 Develop the ability to solve a specific problem right from its identification and literature review.
C411.5 Demonstrate and explain the use of Manufacturing Requirements Planning (MRP2), Just - In - Time (JIT) techniques in terms of operation and theirimportance in Lean World Class Manufacturing.
After successful completion of the course, the students should be able to
Course Outcome No.412
Subject Code & Name : ME8811 & Project work Department: MECH Year/Sem: IV/08
C411.2 Make forecasts in the manufacturing and service sectors using selected quantitative and qualitative techniques.
C411.3 Apply the principles and techniques for planning and control of the production and service systems to optimize/make best use of resources.
C411.4 Understand the importance and function of inventory and to be able to apply selected techniques for its control and management under dependent andindependent demand circumstances
CO410.5 Summarize the different types of control techniques.
Course Outcome No. Course Outcome
CO410.1 Demonstrate the basic functions, roles of managers and Business organization
CO410.2 Illustrate a strategy to make decision in managing various operations
After successful completion of the course, the students should be able to
CO410.3 Summarize the different kinds of structure in a firm and Human Resource Management
CO410.4 Explain leadership, theories of leadership and the steps involved in Communication
SEMESTER 8
Course Outcome No.410
Subject Code & Name : MG8591 & Principles of Management Department: MECH Year/Sem: IV/08
Course Outcome No.411
Subject Code & Name :IE8693 Production planning and control Department: MECH Year/Sem: IV/08
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
C411.1 Explain various production control methods which can be applied to specific situations and state their relationship to the product/process involved.
S.NO COURSE CODE COURSE TITLE L T P C
1 HS8151 communicative english 3 1 0 4
2 MA8151 Engineering Mathematics – I 3 1 0 4
3 PH8151 Engineering Physics 3 0 0 3
4 CY8151 Engineering Chemistry 3 0 0 3
5 GE8151 problem solving and python programming 3 0 0 3
6 GE8152 Engineering Graphics 2 0 3 4
7 GE8161 Problem solving and python programming laboratory 0 0 3 2
8 BS8161 Physics and chemistry laboratory 0 0 3 2
S.NO COURSE CODE COURSE TITLE L T P C
1 HS8251 Technical English 4
2 MA8251 Engineering Mathematics - II 4
3 PH8252 Physics for Information Science 3
4 BE8255 Basic Electrical, Electronics and Measurement Engineering
3
5 GE8291 Environmental Science and Engineering 3
6 CS8251 Programming in C 4
7 GE8261 Engineering Practices Laboratory 1
8 CS8261 C Programming Laboratory 2
S.NO COURSE CODE COURSE TITLE L T P C
1 MA8351 Discrete Mathematics 3 1 0 4
2 CS8351 Digital Principles and System Design 3 1 0 4
3 CS8391 Data Structures 3 0 0 3
4 CS8392 Object Oriented Programming 3 0 0 3
5 EC8395 Communication Engineering 3 1 0 4
6 CS8381 Data Structures Laboratory 0 0 3 2
7 CS8383 Object Oriented Programming Laboratory 0 0 3 2
8 CS8382 Digital Systems Laboratory 0 0 3 2
9 HS8381 Interpersonal Skills/Listening &Speaking 0 0 3 2
S.NO COURSE CODE COURSE TITLE L T P C
1 MA8402 Probability and Queueing Theory 3 1 0 4
2 CS8491 Computer Architecture 3 0 0 3
3 CS8492 Database Management Systems 3 0 0 3
4 CS8451 Design and Analysis of Algorithms 3 1 0 4
5 CS8493 Operating Systems 3 0 0 3
6 CS8494 Software Engineering 3 0 0 3
7 CS8481 Database Management Systems Laboratory 0 0 3 2
8 CS8461 Operating Systems Laboratory 0 0 3 2
9 HS8461 Advanced Reading and Writing 0 0 3 2
S.NO COURSE CODE COURSE TITLE L T P C
1 MA8551 Algebra and Number Theory 3 0 0 3
2 CS8591 Computer Networks 3 1 0 4
3 EC8691 Microprocessors and Microcontrollers 3 1 0 4
4 CS8501 Theory of Computation 3 0 0 3
5 CS8592 Object Oriented Analysis and Design 3 0 0 3
6 OMD551 Basics of biomedical Engineering (Open Elective I) 3 0 0 3
6EC8681 Microprocessors and Microcontrollers Laboratory 0 0 3 2
7 CS8582 Object Oriented Analysis and Design Laboratory 0 0 3 2
8 CS8581 Networks Laboratory 0 0 3 2
S.NO COURSE CODE COURSE TITLE L T P C
1 CS8651 Internet Programming
3 0 0 3
2 CS8691 Artificial Intelligence 3 0 0 3
3 CS8601 Mobile Computing 3 0 0 3
4 CS8602 Complier Design 3 0 0 3
5 CS8603 Distributed Systems 3 0 0 3
6 IT8076 (Professional Elective I) Software Testing 3 0 0 3
7 CS8661 Internet Programming Laboratory 0 0 3 2
8 CS8662 Mobile Application Development Laboratory 0 0 3 2
9 CS8611 Mini Projec 0 0 4 2
10 HS8581 Professional Communication
S.NO COURSE CODE COURSE TITLE L T P C
1 MG8591 Principles of Management 3 0 0 3
2 CS8792 Cryptography and Network Security 3 0 0 3
3 CS8791 Cloud Computing 3 0 0 3
4 Open Elective II 3 0 0 3
5 Professional Elective II 3 0 0 3
6 Professional Elective III 3 0 0 3
7 CS8711 Cloud Computing Laboratory 0 0 3 2
8 IT8761 Security Laboratory 0 0 3 2
S.NO COURSE CODE COURSE TITLE L T P C
1 Professional Elective IV 3 0 0 3
2 Professional Elective V 3 0 0 3
3 CS8811 Project Work 6
SEMESTER 8
THEORY
PRACTICALS
THEORY
PRACTICALS
SEMESTER 7
THEORY
PRACTICALS
SEMESTER 6
THEORY
PRACTICALS
SEMESTER 4
THEORY
PRACTICALS
SEMESTER 5
THEORY
PRACTICALS
PRACTICALS
SEMESTER 2
THEORY
PRACTICALS
SEMESTER 3
THEORY
JEPPIAAR INSTITUTE OF TECHNOLOGY
"Self Belief | Self Discipline | Self Respect"
REGULATION - 2017
DEPARTMENT OF COMPUTER SCIENCE AND ENGINEERING
I - VIII SEMESTERS CURRICULUM & SYLLABUS
SEMESTER 1
Highest Cognitive
LevelK3, A2
K2, A2
A2
A2
A3
Highest Cognitive
Level
K2
K2
K2
K2
K2
Highest Cognitive
Level
K2
K2
K2
K2
K2
Highest Cognitive
K2
K2
K2
K2
K2
Highest Cognitive
LevelK2
K2
K2
K3
K2
K3
Highest Cognitive
LevelK2
K1
K3
K3
K1
K3
Highest Cognitive
Level
K1
K3
K3
K3
K1
K3
A3
A3
A3
A2
Highest Cognitive
Level
K2
K2
K2
K2
K2
K2
K2
K2
K2
K2
A3
A3
A3
A2
CO101.2 Strengthen general comprehending skills and present lucid skills in free writing
CO102.1 Use both the limit definition and rules of differentiation to differentiate functions
Year/Sem: I/01
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
SEMESTER 1
Course Outcome No.CO101
Subject Code & Name : HS8151 -Communicative English Department: CSE Year/Sem: I/01
CO101.3 Foster an environment for reading and develop good language skills.
CO101.4 Speak, read and write effectively for a variety of professional and social settings
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO101.1
CO101.5 Listen, comprehend and respond to different spoken and written discourses/excerpts in different accents and write different genres of texts adopting various writing strategies.
Enable the development of basic grammar to enhance language for a better communication
CO102.2 Associate differentiation to solve maxima and minima problems
Course Outcome No. CO102
Subject Code & Name : MA8151 - Engineering Mathematics – I
Course Outcome No. Course Outcome
CO102.3 Discuss integrals both by using Riemann sums and by using the Fundamental Theorem of Calculus Also Evaluate integrals using techniques of
CO102.4 Associate integration to compute multiple integrals, area, volume, integrals in polar coordinates, in addition to change of order and change of variables
CO102.5 Explain various techniques in solving differential equations
Department: CSE
CO103.1 Explain the basics of properties of matter and its applications.
CO103.2 Identify the concepts of waves and optical devices and their applications in fibre optics
Course Outcome No.CO103
Subject Code & Name :PH8151 - Engineering Physics Department: CSE Year/Sem: I/01
After successful completion of the course, the students should be able to
CO103.3 Demonstrate the concepts of thermal properties of materials and their applications in expansion joints and heat exchangers
CO103.4 Describe advanced physics concepts of quantum theory and its applications in tunneling microscopes
CO103.5 Summarize the basics of crystals and their structures and different crystal growth techniques
Course Outcome No. Course Outcome
CO104.1 Predict the type of troubles present in boilers and the methods used to treat hard water.
CO104.2 Identify the factors affecting the rate of adsorption and catalytic activity.
Course Outcome No.CO104
Subject Code & Name :CY8151-Engineering Chemistry Department: CSE Year/Sem: I/01
After successful completion of the course, the students should be able to
CO104.3 Interpret the Concept of phase rule, its various phase diagrams and predict the low melting alloys
CO104.4 Enumerate various solid, liquid and gaseous fuels, manufacturing methods and basic reactions involved in combustion reactions
CO104.5 Classify the types of batteries, their reactions and the significance of storage renewable energy resources.
Course Outcome No. Course Outcome
CO105.1 Discuss the logical solutions through Flowcharts, Algorithms and Pseudo code.
CO105.2 Explain the syntax for python programming constructs.
Course Outcome No.CO105
Subject Code & Name : GE8151-problem solving and python programming Department: CSE Year/Sem: I/01
After successful completion of the course, the students should be able to
CO105.6 Apply python programs to read and write data from/to files
CO105.3 Compute the flow of the program to obtain the programmatic solution.
CO105.4 Examine the programs with sub problems using ‘Python’ language
CO105.5 Compute the compound data using Python lists, tuples, and dictionaries
Course Outcome No. Course Outcome
CO106.1 Discuss about conics and orthographic views of engineering components.
CO106.2 Draw the projection of points, lines and planes.
Course Outcome No.CO106
Subject Code & Name : GE8152 - Engineering Graphics Department: CSE Year/Sem: I/01
After successful completion of the course, the students should be able to
CO106.6 Apply the concept of drawing in practical applications.
CO106.3 Classify solids and projection of solids at different positions.
CO106.4 Show sectioned view of solids and development of surface.
CO106.5 Draw isometric projection and perspective views of an object/solid.
Course Outcome No. Course Outcome
CO107.1 Write, test, and debug simple Python programs.
CO107.2 Apply the concept of conditionals and loops in Python programs.
Course Outcome No.CO107
Subject Code & Name : GE8161- Problem solving and python programming laboratory
Department: CSE Year/Sem: I/01
After successful completion of the course, the students should be able to
Exhibit ethical principles in engineering practices.
CO107.8 Perform task as an individual and / or team member to manage the task in time.
CO107.3 Develop the Python programs step-wise by defining functions and calling them.
CO107.4 Use Python lists, tuples, dictionaries for representing compound data.
CO107.5 Read and write data from/to files in Python.
CO107.6 Apply the concept of Pygame.
CO107.7
Course Outcome No. Course Outcome
CO108.1 Determine the Modulus of elasticity of materials and Coefficient of Viscosity of liquids.
CO108.2 Determine the Thermal Conductivity of bad conductor using Lee’s disc method
Course Outcome No.CO108
Subject Code & Name :BS8161 -Physics and Chemistry laboratory Department: CSE Year/Sem: I/01
After successful completion of the course, the students should be able to
Estimate the amount of the given acids using conductometric titrations.
CO108.8 Estimate the amount of the given acids using pH titrations.
CO108.3 Calculate the Compressibility of liquids and velocity of ultrasonic waves in liquids.
CO108.4 Measure the wavelength of prominent spectral lines of Mercury Spectrum and particle size of powder using diffraction phenomenon and thickness of thin materials using interference phenomenon.
CO108.5 Determine the band gap energy of a semiconductor.
CO108.9 Determine the amount of iron content in the given substance using potentiometric titration.
CO108.10 Determine the amount of chloride content in the given water sample.
CO108.11 Exhibit ethical principles in engineering practices.
CO108.12 Perform task as an individual and / or team member to manage the task in time.
CO108.13 Express the Engineering activities with effective presentation and report.
CO108.14 Interpret the findings with appropriate technological / research citation.
CO108.6 Calculate water quality parameters such as hardness, alkalinity of the given water sample.
CO108.7
CO107.9 Express the Engineering activities with effective presentation and report.
CO107.10 Interpret the findings with appropriate technological / research citation.
Highest Cognitive
LevelK2, A2
K3, A2
K3, A2
A2
A2
Highest Cognitive
K2
K2
K2
K2
K2
Highest Cognitive
K2
K2
K2
K2
K2
Highest Cognitive
K2
K3
K2
K3
K2
Highest Cognitive
K2
K2
K2
K2
K1
Highest Cognitive
K2
K3
K3
K2
K2
Highest Cognitive
K1
K3
K3
K3
K2
K3
K3
A3
A3
A3
A2
Highest Cognitive
K4
K3
K4
K3
K4
K3
A3
A3
A3
A2
CO116.2
CO115.9 Perform task as an individual and / or team member to manage the task in time
CO115.10 Express the Engineering activities with effective presentation and report.
CO115.11 Interpret the findings with appropriate technological / research citation.
CO115.6 Explain the working of electronic components and its utilization
CO115.7 Apply electronic principles to develop circuits for primitive application
CO115.8
CO116.3 Develop the C programs with arrays and strings.
CO116.4 Apply the concept of functions, recursion in C programs
CO116.5
Express the Engineering activities with effective presentation and report.
Apply the concepts of structure and develop applications in C using structures.
Explain the concepts of read and write data from/to files in ‘C’ Programs
Summarize and apply the concepts of Arrays, Strings in ‘C’ language for user defined problems.
Illustrate the concepts of functions and pointers in C.
Describe the basic constructs and syntax of C program.
Develop C programs for simple applications by making use of basic constructs.
Implement the concept of conditionals and loops in C programs.
Course Outcome No.CO116
Subject Code & Name : CS8261 & C Programming Laboratory Department: CSE Year/Sem: I/02
After successful completion of the course, the students should be able to
Interpret the concept of pointers, and structures in C
Course Outcome No. Course Outcome
CO116.1
CO116.10 Interpret the findings with appropriate technological / research citation.
CO116.7 Exhibit ethical principles in engineering practices.
CO116.9
Perform task as an individual and / or team member to manage the task in time.CO116.8
CO116.6 Examine the use of file processing techniques.
Exhibit ethical principles in engineering practices
CO115.3 Demonstrate Plumbing requirements of domestic buildings.
CO115.4 Apply the skills of basic electrical engineering for house wiring practice
CO115.5 Measure various electrical quantities
Course Outcome No. Course Outcome
CO115.1 Identify Tools and Techniques used for Sheet Metal Fabrication
CO115.2 Use welding equipment to join the structures
Course Outcome No.CO115
Subject Code & Name : GE8261 Engineering Practices laboratory Department: CSE Year/Sem: I/02
After successful completion of the course, the students should be able to
CO114.3
CO114.4
CO114.5
Course Outcome No. Course Outcome
CO114.1
CO114.2
Course Outcome No.CO114
Subject Code & Name : CS8251 & Programming in C Department: CSE Year/Sem: I/02
After successful completion of the course, the students should be able to
CO113.3 Describe the importance of natural resources and Disaster management.
CO113.4 Illustrate the importance of environment by assessing its impact on the human world.
CO113.5 Summarize the population related issues and types of welfare programmes in the society.
Course Outcome No. Course Outcome
CO113.1 Interpret the basic concept of Ecosystems and Biodiversity.
CO113.2 Distinguish the types of pollution and its control measures.
Course Outcome No.CO113
Subject Code & Name : GE8291 & Environmental Science and Engineering Department: CSE Year/Sem: I/02
After successful completion of the course, the students should be able to
CO112.3 Introduction of renewable sources and common domestic loads
CO112.4 Describe the construction , principle of operation and performance of A.C and D.C machines
CO112.5 Explain the working principle of various measuring instruments and the classification of transducers
Course Outcome No. Course Outcome
CO112.1 Discuss the essentials of electric circuits and analysis.
CO112.2 Discuss the basic operation of electric machines and transformers
Course Outcome No.CO112
Subject Code & Name : BE8255 & Basic Electrical, Electronics and Measurement Engineering
Department: CSE Year/Sem: I/02
After successful completion of the course, the students should be able to
CO111.3 Get knowledge on magnetic properties of materials and their applications in data storage
CO111.4 Have the necessary understanding on the functioning of optical materials for optoelectronics
CO111.5 Understand the basics of quantum structures and their applications in carbon electronics
Course Outcome No. Course Outcome
CO111.1 Gain knowledge on classical and quantum electron theories, and energy band structuues
CO111.2 Acquire knowledge on basics of semiconductor physics and its applications in various devices,
Course Outcome No.CO111
Subject Code & Name : PH8252-Physics for INFORMATION SCIENCE Department: CSE Year/Sem: I/02
After successful completion of the course, the students should be able to
CO110.3 Discuss analytic functions in heat and fluid flow.
CO110.4 Extend the concept of contour integrals in evaluating Real integrals.
CO110.5 Discuss Laplace Transform methods to solve initial value problems for constantcoefficient linear ODEs.
Course Outcome No. Course Outcome
CO110.1 Compute the Diagonalize symmetric matrices and similar matrices using Eigen values and Eigen vectors.
CO110.2 Explain gradients, potential functions, and directional derivatives of functions of several variables. Also Compute line, surface and volume integral using Gauss divergence, Green’s and
Course Outcome No.CO110
Subject Code & Name : MA8251 - Engineering Mathematics – II Department: CSE Year/Sem: I/02
After successful completion of the course, the students should be able to
CO109.3 Develop Formal and informal communication is easy to speak fluently and impeccably
CO109.4 Write job application and resume, Bio-data and Profile with cover letter
CO109.5 Understand technical article, writing reports and minutes of meeting.
Course Outcome No. Course Outcome
CO109.1 Reading technical texts and writing by the Pupils on area-specific texts effectively and effortlessly
CO109.2 Expand comprehensive skills to listen a lecture and talks in their area of specialization successfully.
SEMESTER-2
Course Outcome No.CO109
Subject Code & Name : HS8251 -Technical English Department: CSE Year/Sem: I/02
After successful completion of the course, the students should be able to
Highest Cognitive
Level
K2
K2
K2
K2
K2
Highest Cognitive
Level
K3
K3
K3
K3
K2
Highest Cognitive
K3
K3
K3
K3
K2
Highest Cognitive
Level
K2
K2
K2
K3
K3
Highest Cognitive
K2
K3
K3
K4
K3
Highest Cognitive
K2
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive
K3
K3
K3
K3
K3
K6
A3
A3
A3
A2
Highest Cognitive
K3
K3
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive
K2
K3
K3
K3
K3
K3
A3
A3
A3
A2
CO209.6 Test A/D and D/A converters, Multipliers and Modulators using SPICE Software
CO209.7 Exhibit ethical principles in engineering practices
CO209.8 Perform task as an individual and / or team member to manage the task in time
CO209.3
CO209.4
CO209.5
Course Outcome No.
CO209.1
CO209.2
After successful completion of the course, the students should be able to
CO208.6 Demonstrate simple digital system.
Summarize various searching , sorting and hashing techniques
Illustrate the basic conceptsof tree & heaps and its applications
Implement Graph Data structures and Summarize its applications
Illustrate the basic concepts of abstract data types and implement List ADT
Implement Stack, Queue Data structures and its operations
Design Instrumentation amplifier using OPAMP and Frequency Multiplier PLL
Verify working of Mulivibrators using Analog IC's
Build first and second order practical active filters using Analog IC's
Course Outcome
Verify the operation of circuits using various Analog IC's
Discuss the working of various function generating cirucits using discrete elements and SPICE Software
Course Outcome No.CO209
Subject Code & Name :HS8381/INTERPERSONNEL SKILL/LISTENING AND SPEAKING
Department: CSE Year/Sem: II/03
CO208.3 Practice various counters using Flip-flops.
CO208.4 Practice shift registers using Flip-flops
CO208.5 Solve verilog codes for the design of digital circuits.
Course Outcome No. Course Outcome
CO201.4
CO201.1
CO201.2
Develop the knowledge of the counting principles.
Illustate theclass of functions which transform a finite set into another finite set which relates to input and output functions in computer science.
Describe the concepts needed to test the logic of a program.
Describe structures on many levels.
CO201.5 Interpret the concepts and properties of algebraic structures such as groups, rings and fields.
CO209.9 Express the Engineering activities with effective presentation and report.
CO209.10 Interpret the findings with appropriate technological / research citation.
CO208.1 Interpret Combinational circuits Using Logic gates.
CO208.2 Illustrate Combinational circuits Using MSI Devices.
Course Outcome No.CO208
Subject Code & Name : CS8382 DIGITAL SYSTEM LABORATORY Department: CSE Year/Sem: II/03
After successful completion of the course, the students should be able to
CO207.5 Implement java programs using multithreading
Course Outcome No. Course Outcome
CO207.1 Complete java programs using class concepts
CO207.2 Implement java programs for simple application that makes use of packages and interfaces
CO207.6 Design application using file processing, generic programming and event handling
CO207.10 Interpret the findings with appropriate technological / research citation.
CO207.3 Experiment java programs with arraylist
CO207.4 Demonstrate java programs with exception handling
CO206.3 Implement various tree operations
CO206.4 Implement various graphs algorithms
CO206.5
Course Outcome No. Course Outcome
CO206.1 Implement various Abstract Data Types and its operations
CO206.2 Develop simple applications using various data structures
Course Outcome No.CO206
Subject Code & Name : CS8381 DATASTRUCTURES LABORATORY Department: CSE Year/Sem: II/03
After successful completion of the course, the students should be able to
CO205.3 Classify different digital modulation and transmission schemes in communication.
CO205.4 Analyze information theory and error control coding schemes.
CO205.5 Explain about Spread spectrum and multiple access technique
Course Outcome No. Course Outcome
CO205.1 Discuss about various analog modulation techniques.
CO205.2 Describe various pulse modulation techniques.
Course Outcome No.CO205
Subject Code & Name : EC8395 COMMUNICATION ENGINEERING Department: CSE Year/Sem: II/03
After successful completion of the course, the students should be able to
CO204.4 Solve a java application with threads and generics classes
CO204.5 Demonstrate and build simple Graphical User Interfaces
Course Outcome No. Course Outcome
CO204.1 Summarize Object Oriented Programming concepts and basic characteristics of Java
CO204.2 Interpret principles of packages, inheritance and interfaces
CO202.4 Design Asynchronous sequential circuits.
Course Outcome No.CO203
Subject Code & Name : CS8391 DATA STRUCTURES Department: CSE Year/Sem: II/03
CO204.3 Interpret exceptions and use I/O streams
After successful completion of the course, the students should be able to
After successful completion of the course, the students should be able to
CO203.4
CO203.3
Course Outcome No. Course Outcome
SEMESTER 3
Course Outcome No.CO202
Subject Code & Name : CS8351 Digital Principal and sysytem design Department: CSE Year/Sem: II/03
After successful completion of the course, the students should be able to
Design synchronous sequential circuits.
Course Outcome
CO202.5 Model memory arrays for any boolean function.
Course Outcome No. Course Outcome
CO202.1 Apply Arithmetic operations in any number system and various techniques to simplify the Boolean function
CO202.2 Build combinational circuits that perform arithmetic operations & code Conversions.
Course Outcome No.CO201
Subject Code & Name : MA8351 & Discrete Mathematics Department: CSE
CO202.3
Year/Sem: II/03
After successful completion of the course, the students should be able to
Course Outcome No.
CO201.3
Course Outcome No.CO204
Subject Code & Name : CS8392 OBJECT ORENTED PROGRAMMING Department: CSE Year/Sem: II/03
CO203.5
Implement various sorting and searching algorithms
CO206.6 Exhibit ethical principles in engineering practices.
CO206.7 Perform task as an individual and / or team member to manage the task in time.
CO206.8
CO203.1
CO203.2
CO208.7 Exhibit ethical principles in engineering practices.
CO208.8 Perform task as an individual and / or team member to manage the task in time.
CO208.9 Express the Engineering activities with effective presentation and report.
CO208.10 Interpret the findings with appropriate technological / research citation.
Express the Engineering activities with effective presentation and report.
CO206.9 Interpret the findings with appropriate technological / research citation.
CO207.7 Exhibit ethical principles in engineering practices.
CO207.8 Perform task as an individual and / or team member to manage the task in time.
CO207.9 Express the Engineering activities with effective presentation and report.
Course Outcome No.CO207
Subject Code & Name : CS8383 OBJECT ORIENTED PROGRAMMING LABORATORY
Department: CSE Year/Sem: II/03
After successful completion of the course, the students should be able to
Highest Cognitive
Level
K3
K2
K2
K3
K2
Highest Cognitive
Level
K2
K3
K2
K2
K2
Highest Cognitive
K2
K3
K3
K3
K3
Highest Cognitive
K2
K3
K2
K2
K3
Highest Cognitive
K2
K2
K2
K3
K2
Highest Cognitive
K3
K3
K2
K2
K3
A3
A3
A3
A2
Highest Cognitive
K2
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive
A1
K2,A2
A2
K3
A2
A3
A3
A3
A2
CO217.3 Implement semaphore concepts.
CO218.3 Perform critical thinking in various professional contexts.
CO218.4 Develop proposal writing skills.
CO218.5 Write winning job applications.
CO218.6 Exhibit ethical principles in engineering practices.
CO218.7 Perform task as an individual and / or team member to manage the task in time.
CO218.8 Express the Engineering activities with effective presentation and report.
CO218.9 Interpret the findings with appropriate technological / research citation.
CO217.4 Create processes and implement IPC.
CO217.5 Analyze the performance of the various page replacement algorithms.
Course Outcome No. Course Outcome
CO217.1 Illustrate the various CPU scheduling algorithms.
CO217.2 Implement deadlock avoidance and detection algorithms.
Course Outcome No.CO217
Subject Code & Name : CS8461/OPERATNG SYSTEM LAB Department: CSE Year/Sem: II/04
After successful completion of the course, the students should be able to
CO216.3 Implement simple applications that use Views.
CO216.4 Make use of ER modeling and normalization to design and implement database.
CO216.5 Implement applications that require a Front-end Tool.
Course Outcome No. Course Outcome
CO216.1 Compute typical data definitions and manipulation commands.
CO216.2 Design applications to test Nested and Join Queries.
Course Outcome No.CO216
Subject Code & Name : CS8481/DATABASE MANAGEMENT SYSTEMS LABORATORY
Department: CSE Year/Sem: II/04
After successful completion of the course, the students should be able to
CO215.4 Compare various testing and maintenance methods
CO215.5 Interpret the project schedule, estimate project cost and effort required.
Course Outcome No. Course Outcome
CO215.1 Identify the key activities in managing a software project and recognize different process model.
CO215.2 Explain the concepts of requirements engineering and Analysis Modeling.
After successful completion of the course, the students should be able to
CO214.3 Identify the issues in memory management and Demonstrate the usage of various memory management schemes
CO214.4 Encapsulate the concepts of Mass Storage Structure, File System Structure and I/OSystems.
CO214.5 Implement administrative tasks on Linux servers
CO215.3 Outline the systematic procedures for software design and deployment.
Course Outcome No.CO215
CO213.3 Apply dynamic programming and greedy technique for the given real time problem
CO213.4 Demonstrate iteratve improvement design technique for various computing problems
CO213.5 Apply approximation algorithm and demonstrate branch and bound and backtracking techniques for the given real time problem
Course Outcome No. Course Outcome
CO213.1 Interpret the Fundamental needs of algorithms in problem solving and analyze the time and space complexity of algorithms.
CO213.2 Apply brute force and dvide and conquer technique for the given real time problem.
Course Outcome No.CO213
Subject Code & Name : CS8451/DESIGN AND ANALYSIS OF ALGORTHM Department: CSE Year/Sem: II/04
After successful completion of the course, the students should be able to
Discuss the concepts of transaction processing and concurrency control.
CO212.4 Outline the various internal storage structure and optimization techniques.
CO212.5 Examine the advanced concepts of security in databases systems.
CO212.2 Illustrate and Use ER model for Relational model mapping to perform database designeffectively.
CO212.3
Course Outcome No. Course Outcome
CO211.3
CO211.4 Outline the parallel processing architectures
CO211.2 Apply the arithmetic algorithms to design Arithmetic and Logic Unit
SEMESTER 4
Course Outcome No.CO210
Subject Code & Name : MA8402 -PROBABILITY AND QUEUING THEORY Department: CSE Year/Sem: II/04
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO212.2 Describe the fundamental concepts of relational database and SQL.
CO210.1 Develop the fundamental knowledge of the concepts of probability and have knowledge of standard distributions which can describe real life phenomenon.
CO210.2 Describe the basic concepts of one and two dimensional random variables which used in engineering applications.
CO210.3 Demonstate the concept of random processes in engineering disciplines.
CO210.4 Apply the concept of Queuing Models in real life problem.
CO210.5 Interpret the various series queues and open Jackson Network.
Course Outcome No. Course Outcome
CO211.1 Explain the basics structure of computers, operations and instructions.
After successful completion of the course, the students should be able to
Course Outcome No.CO211
Subject Code & Name : CS8491/ COMPUTER ARCHITECTURE Department: CSE Year/Sem: II/04
K3
K2
K2
K2
Highest Cognitive Level
Discuss about the concepts of pipelined execution and control unit
Course Outcome No.CO212
Subject Code & Name : CS8492 -DATABASE MANAGEMENT SYSTEMS Department: CSE Year/Sem: II/04
After successful completion of the course, the students should be able to
K2
CO211.5 Predict the memory systems and input-output communication.
CO216.6 Exhibit ethical principles in engineering practices.
CO216.7 Perform task as an individual and / or team member to manage the task in time.
CO216.8 Express the Engineering activities with effective presentation and report.
CO216.9 Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO214.1 Illustrate the operating system basic concepts, System call, structure and its functionalities.
CO214.2 Apply various CPU scheduling algorithms for problems and Outline the needs and applications of process synchronization.
Course Outcome No.CO214
Subject Code & Name : CS8493 -OPERATING SYSTEMS Department: CSE Year/Sem: II/04
After successful completion of the course, the students should be able to
Subject Code & Name : CS8494 - SOFTWARE ENGINEERING Department: CSE Year/Sem: II/04
CO217.6 Exhibit ethical principles in engineering practices.
CO217.7 Perform task as an individual and / or team member to manage the task in time.
CO217.8 Express the Engineering activities with effective presentation and report.
CO217.9 Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO218.1 Strengthen the reading skills.
CO218.2 Enhance the technical writing skills.
Course Outcome No.CO218
Subject Code & Name : HS8461/ADVANCED READING AND WRITING Department: CSE Year/Sem: II/04
After successful completion of the course, the students should be able to
1
Highest Cognitive
Level
K2
K2
K2
K2
K2
Highest Cognitive
Level
K2
K2
K2
K3
K2
Highest Cognitive
K2
K2
K2
K3
K2
Highest Cognitive
Level
K3
K3
K3
K3
K2
Highest Cognitive
K2
K3
K3
K2
K2
Highest Cognitive
K2
K2
K3
K4
K4
Highest Cognitive
K2
K3
K3
K2
K3
K3
A3
A3
A3
A2
Highest Cognitive
K2
K2
K2
K2
K3
A3
A3
A3
A2
Highest Cognitive
K3
K3
K3
K3
K3
A3
A3
A3
A3
A2
CO309.3 Use simulation tools to analyze the performance of various network protocols
CO309.4 Analyze various routing algorithms
CO309.5 Implement error correction codes
CO309.6 Illustrate Network simulator (NS) and Simulate Congestion Control Algorithms using NS
CO309.7 Exhibit ethical principles in engineering practices
CO309.8 Perform task as an individual and / or team member to manage the task in time
CO309.9 Express the Engineering activities with effective presentation and report.
CO309.10 Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO309.1 Implement various protocols using TCP and UDP
CO309.2 Compare the performance of different transport layer protocols
Course Outcome No. CO309
Subject Code & Name : CS8581 / Networks Laboratory Department: CSE Year/Sem: III/05
After successful completion of the course, the students should be able to
CO308.3Differentiate the interaction between objects and represent them using UML Sequence and Collaboration Diagrams for the given scenario
CO308.4Predict the software quality using design patterns
CO308.7 Perform task as an individual and / or team member to manage the task in time
CO308.8 Express the Engineering activities with effective presentation and report.
CO308.9 Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO308.1Explain Object Oriented analysis and design concept for a given problem specification
CO308.2Identify and map basic software requirements in UML mapping
CO308.5Examine the modified system and test it for various scenarios
CO308.6 Exhibit ethical principles in engineering practices
Course Outcome No. CO308
Subject Code & Name : CS8582 & Object Oriented Analysis and Design Laboratory Department: CSE Year/Sem: I/I
After successful completion of the course, the students should be able to
CO307.3Generate waveforms using Microprocessor
CO307.4Execute programs in 8051 Microcontroller
CO307.10Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO307.1Write and execute ALP Program using Microporcessor
CO307.2Inteface different I/O's with Microprocessor
CO307.5Develop a program to communicate Microprocessor with Pesonal Computer
CO307.6Use a combination of Hardware and software to solve a real time problem
CO307.7Exhibit ethical principles in engineering practices
CO307.8Perform task as an individual and / or team member to manage the task in time
CO307.9Express the Engineering activities with effective presentation and report.
Course Outcome No. CO307
Subject Code & Name : EC8681 / Microprocessors and Microcontrollers Laboratory
Department: CSE Year/Sem:III/V
After successful completion of the course, the students should be able to
CO306.3 Apply the concept of bioamplifier for various physiological recording.
CO306.4 Analyze the different measurement technique for non physiological parameters.
CO306.5 Categorize the different types biochemical measurements.
Course Outcome No. Course Outcome
CO306.1 Outline different biopotential electrode and its propagation mechanism.
CO306.2 Demonstrate different types of electrodes and its placement for various recording.
Course Outcome No. CO306
Subject Code & Name : OMD551&Basics of biomedical Engineering Department: CSE Year/Sem: I/I
After successful completion of the course, the students should be able to
CO305.3 Discover the UML dynamic and implementation diagrams with an example.
CO305.4 Interpret the UML based software design into pattern based design.
CO305.5 Discuss the various testing methodologies for Object Oriented software.
Course Outcome No. Course Outcome
CO305.1 Explain about the fundamentals of object modeling and differentiate Unified Process from other approaches.
CO305.2 Apply the different static UML diagrams for the given scenario.
Course Outcome No.CO305
Subject Code & Name : CS8592/ OBJECT ORIENTED ANALYSIS & DESIGN Department: CSE Year/Sem: III/V
After successful completion of the course, the students should be able to
CO304.3 Demonstrate Context free grammar for any construct and to design the parse tree for the given grammar.
CO304.4 Solve simple computational problems by using Turing machine.
CO304.5 Discuss decidable and undecidable problems, solvable and unsolvable problems to solve the NP complete.
Course Outcome No. Course Outcome
CO304.1 Illustrate the concept of automata, regular expression for any pattern to get the specified transition diagram.
CO304.2 Discover various model using the regular expression for any pattern.
Course Outcome No.CO304
Subject Code & Name : CS8501 & THEORY OF COMPUTATION Department: CSE Year/Sem: III/05
After successful completion of the course, the students should be able to
CO303.3 Explain the various interfacing modules with 8086 Microprocessor
CO303.4 Illustrate the architecture of 8051 microcontroller
CO303.5 Explain about various interfacing modules with 8051 microcontroller
Course Outcome No. Course Outcome
CO303.1 Discuss about internal architecture of 8086 Microprocessor
CO303.2 Discuss about system bus structure of 8086 Microprocessor
Course Outcome No.CO303
Subject Code & Name : EC8691 & MICROPROCESSOR AND MICROCONTROLLER
Department: CSE Year/Sem: III/05
After successful completion of the course, the students should be able to
CO302.3 Explain the different services of network layer.
CO302.4 Compare the different transport layer protocols and their applicability based on user requirements.
CO302.5 Describe the working of various application layer protocols.
Course Outcome No. Course Outcome
CO302.1 Identify various layers of network and discuss the functions of physical layer.
CO302.2 Discuss how data flows from one node to another node with regard to data link layer.
Course Outcome No.CO302
Subject Code & Name : CS8591 & COMPUTER NETWORKS Department: CSE Year/Sem: III/V
After successful completion of the course, the students should be able to
CO301.5 Extend the concepts of multiplicative functions and classical theorems. Also Associate the knowledge of integrated approach to Number theory and abstract algebra.
Course Outcome No. Course Outcome
CO301.1 Summarize the notations and properties of algebraic structures such as groups, rings and fields
CO301.2 Explain the concepts of finite fields and polynomials to solve problems in advanced algebra.
SEMESTER 5
Course Outcome No.CO301
Subject Code & Name : MA8551/ALGEBRA AND NUMBER THEORY Department: CSE Year/Sem: III/05
After successful completion of the course, the students should be able to
CO301.3 Associate the applications of divisibility theory and canonical decompositions.
CO301.4 Describe the concept of Diophantine equations and congruences and exhibit the efficient use of advanced algebraic techniques in number theory.
Highest Cognitive
Level
K2
K3
K3
K3
K3
Highest Cognitive
K2
K3
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K3
K3
Highest Cognitive
K2
K3
K3
K2
K3
Highest Cognitive
K2
K2
K2
K2
K2
Highest Cognitive
Level
K2
K2
K2
K2
K3
Highest Cognitive
K3
K3
K3
K3
K4
A3
A3
A3
A2
Highest Cognitive
Level
K3
K2
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive
K2
K4
K3
K3
K3
K2
Highest Cognitive
LevelK2
A3
K2
A2
A3
A3
A3
A3
A2
CO319.2 Express adequate soft skills to successfully execute the job on hand.
CO319.3 To respond favorably to the values of others opinion and manage difficultsituations in group discussions wisely grooming for any profession.
CO319.4 Express the body language in a very pleasant manner and react to even toughsituations with ease.
CO319.5 To perform intelligently during job interviews and be successful.
CO319.6 Exhibit ethical principles in engineering practices.
CO319.7 Perform task as an individual and / or team member to manage the task in time.
CO319.8 Express the Engineering activities with effective presentation and report.
CO319.9 Interpret the findings with appropriate technological / research citation.
CO318.1 Identify the problem by applying acquired knowledge and survey the relevant literature for getting exposed to related solutions.
CO318.2 Analyze and categorize executable project modules after considering risks.
Course Outcome No. Course Outcome
CO317.1
Course Outcome No.
Subject Code & Name : HS8581 & Professional Communication Department: CSE Year/Sem: III/06
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO319.1 Classify the content material and make effective presentations.
CO318.3
Describe the role of heuristics and solve various types of search problems.
Prepare for the ability to explore a variety of representational formalisms and associated algorithms.
Illustrate the complications of planning and intelligent agents acting in the Real world.
Course Outcome
Course Outcome No.CO319
Demonstrate the architecture of mobile application development frameworks
CO317.2 Predict the required architecture based upon the mobile application to be developed
Course Outcome No.CO318
Subject Code & Name : CS8611 & Mini Project Department: CSE Year/Sem: III/06
After successful completion of the course, the students should be able to
Interpret the findings with appropriate technological / research citation.
Course Outcome No. CO317
Subject Code & Name : CS8662 & Mobile Application DevelopmentLaboratory
Department: CSE Year/Sem: III/06
After successful completion of the course, the students should be able to
CO317.3 Discover mobile applications using various layout and widgets.
CO317.4 Apply various mobile applications using emulators
CO317.5 Apply applications to hand-held devices
CO317.6 Exhibit ethical principles in engineering practices.
CO317.7 Perform task as an individual and / or team member to manage the task in time.
CO317.8 Express the Engineering activities with effective presentation and report.
CO317.9
CO316.6 Exhibit ethical principles in engineering practices.
CO316.7 Perform task as an individual and / or team member to manage the task in time.
CO316.8 Express the Engineering activities with effective presentation and report.
CO316.9 Interpret the findings with appropriate technological / research citation.
CO316.3create dynamic web pages using server side scripting
CO316.4Demonstrate PHP programming to develop web applications.
CO316.5create web applications using AJAX and web services.
Course Outcome No. Course Outcome
CO316.1Design web pages usng HTML/XML and style sheets
CO316.2Create dynamic web pages with validation using Java Script objects and by applying different event handling mechanisms.
Course Outcome No.CO316
Subject Code & Name : CS8661 & Internet ProgrammingLaboratory
Department: CSE Year/Sem: III/06
After successful completion of the course, the students should be able to
CO315.3 Outline the various levels of testing
CO315.4 Summarize, how to document test plans and test cases designed
CO315.5 Demonstrate the use of automatic testing tools, develop and validate a test plan.
Course Outcome No. Course Outcome
CO315.1 Explain about Software testing principles and the Defect Repository and Test Design
CO315.2 Predict test cases suitable for a software development for different domains
Course Outcome No. CO315
Subject Code & Name : IT8076 & Software Testing Department: CSE Year/Sem: III/06
After successful completion of the course, the students should be able to
CO314.3 Interpret the mutual exclusion and deadlock detection algorithms in distributed systems.
CO314.4 Illustrate the agreement protocols and fault tolerance mechanism in distributed systems.
CO314.5 Explain the features of peer to peer and distributed shared memory system.
Course Outcome No. Course Outcome
CO314.1 Describe about the foundation and issues of distributed systems.
CO314.2 Summarize the various synchronization issues and global state of distributed systems.
Course Outcome No.CO314
Subject Code & Name : CS8603 & Distributed Systems Department: CSE Year/Sem: III/06
After successful completion of the course, the students should be able to
CO313.3 Develop semantic analyzers for type-checking and intermediate code generators to translate the source program into an intermediate code.
CO313.4 Describe the isuues in Code Generation and Storage Organization.
CO313.5 Apply the various optimization techniques to Optimize the target code.
Course Outcome No. Course Outcome
CO313.1 Implement the functionalities of lexical analysis phase like conversion of regular expression to DFA and minimization of DFA.
CO313.2 Construct parsers like top-down ,bottom-up with an understanding of Context Free Grammars.
CO312.3 Explain the basics of mobile telecommunication system
CO312.4 Apply Ad hoc networks with routing protocols.
CO312.5 Experiment various mobile applications and m-commerce payment modules.
After successful completion of the course, the students should be able to
Course Outcome No.CO313
Subject Code & Name : CS8602 & Compiler Design Department: CSE Year/Sem: III/06
Course Outcome No. Course Outcome
CO312.1 Summarize the basic concepts of mobile computing and MAC protocol.
CO312.2 Describe the required functionality at each layer for given application.
Course Outcome No.CO312
Subject Code & Name : CS8601 & Mobile Computing Department: CSE Year/Sem: III/06
After successful completion of the course, the students should be able to
CO311.5 Demonstrate the fundamental concepts of machine learning and its related algorithms in the applications of NLP and agent design.
Course Outcome No. Course Outcome
CO311.1
CO311.2
Year/Sem: III/06
After successful completion of the course, the students should be able to
Course Outcome No. CO311
Subject Code & Name : CS8691 & Artificial Intelligence Department: CSE
CO311.3
CO311.4
Determine and formulate a given A.I. problem that an Intelligent System must solve.
SEMESTER 6
Course Outcome No.CO310
Subject Code & Name : CS8651 & Internet Programming Department: CSE Year/Sem: III/06
After successful completion of the course, the students should be able to
CO310.3 Solve server side programs using servlets and JSP
CO310.4 Experiment Simple web page in PHP and to present data in XML format
CO310.5 Illustrate rich client presentation using AJAX
Course Outcome No. Course Outcome
CO310.1 Interpret a basic website using HTML and cascading style sheets
CO310.2 Demonstrate dynamic web page with validation using javascript objects and by applyng different event handling mechanisms
Choose efficient tools for designing project modules.
CO318.4 Combine all the modules through effective team work after efficient testing.
CO318.5 Implement and test solutions to trace against the user requirements.
CO318.6 Elaborate the completed task and compile the project report.
Highest Cognitive
Level
K2
K2
K2
K3
K3
Highest Cognitive
Highest Cognitive Level
Highest Cognitive
Highest Cognitive
Highest Cognitive
Level
K2
K2
K3
K3
K3
Highest Cognitive
A3
A3
A3
A2
Highest Cognitive
Level
K3
K3
K3
K3
K2
A3
A3
A3
A2
K3
K3
K2
K2
K3
K3
K2
K2
Course Outcome No. Course Outcome
CO401.1 Discuss the evolution of management thoughts and the challenges of managerial activities in a global business environment
CO401.2 Outline the nature and purpose of planning and decision-making process in the Organizations.
Course Outcome No. Course Outcome
CO402.1Describe the fundamentals of networks security, security architecture, threats and vulnerabilities
CO402.2Discuss the mathematical support for both symmetric and asymmetric key cryptography
Course Outcome No. CO402
Subject Code & Name : CS8792-Cryptography and Network security Department: CSE
SEMESTER 7
Course Outcome No.CO401
Subject Code & Name : MG8591-Principles of Management Department: CSE Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO401.3 Summarize various types of Organization structure and associated Human Management activities for man-power utilization.
CO401.4 Compare and explain the theories of leadership ,motivation, and effective communication method.
CO401.5 Analyze various Controlling techniques to maintain standards in Organizations.
Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO402.3Make use of symmetric key cryptographic algorithms to perform cryptographic operations
CO402.4Solve cryptographic operations using public key cryptographic algorithms
CO402.5Apply the various Authentication schemes and security practices to simulate different applications
K2
K2
K3
K3
K3
Course Outcome No. Course Outcome
CO403.1Discuss the concepts ,key technologies of cloud computing.
CO403.2Explain the evolution of cloud from the existing technologies.
Course Outcome No.CO403
Subject Code & Name : CS8791-Cloud Computing Department: CSE Year/Sem: IV/07
After successful completion of the course, the students should be able to
K2
K2
CO403.3Describe the various issues in cloud computing and its Architecture.
CO403.4Illustrate the Security issues of cloud computing and resource management .
CO403.5Summarize the cloud computing technologies and its paradigm.
K2
K3
K2
Course Outcome No. Course Outcome
CO404.1 Illustrate the basic concepts of decision phases, drivers and apply competitive supply chain strategies.
CO404.2 Analyze factors influencing network design.
Course Outcome No.CO404
Subject Code & Name : OME752-Supply Chain Management Department: CSE Year/Sem: IV/07
After successful completion of the course, the students should be able to
K2
K3
CO404.3 Apply the design, routing and scheduling pricniples of transportation network in supply chain.
CO404.4 Describe Sourcing and Coordination Effects of Supply Chain
CO404.5 Summarize the role of Information Technolgy and analyse the Customer, Supllier Relationship Coordination in a supplychain.
K3
K3
K2
Course Outcome No. Course Outcome
CO405.1 Explain the software project evaluation techniques and planning
CO405.2 Demonstrate different software process models and cost estimation techniques.
Course Outcome No.CO405
Subject Code & Name : IT8075-Software Project Management Department: CSE Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO405.3 Illustrate the risk management process.
CO405.4 Explain the need for Software Project Management and control.
CO405.5 Summarize the organizational behavior and working in teams.
Course Outcome No. Course Outcome
CO406.1 Interpret the computer devices and HCI models.
CO406.2 Demonstrate the interactive design basics and HCI software process.
Course Outcome No. CO406
Subject Code & Name : CS8079-Human Computer Interaction Department: CSE Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO406.3 Analyze the stake holders requirements and choose the appropriate models.
CO406.4 Develop mobile HCI using mobile elements and tools by considering mobile eco system.
CO406.5 Design meaningful user interface.
Course Outcome No. Course Outcome
CO407.1Implement various virtualization tools such as Virtual Box, VMware workstation.
CO407.2Demonstrate the Design and deployment of web application in a PaaS environment.
Course Outcome No.CO407
Subject Code & Name : CS8711 -Cloud Computing laboratoryLaboratory
Department: CSE Year/Sem: IV/07
After successful completion of the course, the students should be able to
K3
K3
CO316.6 Exhibit ethical principles in engineering practices.
CO316.7 Perform task as an individual and / or team member to manage the task in time.
CO316.8 Express the Engineering activities with effective presentation and report.
CO407.3Illustrate the simulation of a cloud environment to implement new schedulers.
CO407.4Demonstrate the Installation and use a cloud environment that can be used as a private cloud.
CO407.5Interpret large data sets in a parallel environment.
CO316.9 Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO408.1 Develop code for classical Encryption techniques to solve the problems.
CO408.2 Build cryptosytems by applying symmetric and public key generation algorithms
Course Outcome No. CO408
Subject Code & Name : IT8761- Security LaboratoryLaboratory
Department: CSE Year/Sem: IV/07
After successful completion of the course, the students should be able to
CO317.6 Exhibit ethical principles in engineering practices.
CO317.7 Perform task as an individual and / or team member to manage the task in time.
CO317.8 Express the Engineering activities with effective presentation and report.
CO408.3 Construct code for authentication algorithms
CO317.9 Interpret the findings with appropriate technological / research citation.
CO408.4 Develop a signature scheme using Digital Signature standard.
CO408.5 Demonstrate the network security system using open source tools
Highest Cognitive
Level
K1
K2
K2
K2
K2
Highest Cognitive
K2
K2
K3
K3
K2
Highest Cognitive
K2
K4
K3
K3
K3
K2
After successful completion of the course, the students should be able to
SEMESTER 8
Course Outcome No.CO409
Subject Code & Name : GE8076- Professional Ethics in Engineering Department: CSE Year/Sem: IV/08
Course Outcome No. Course Outcome
CO409.1 Describe the human values with regard to the individual life style for the society
CO409.2 Illustrate the moral issues and models of professional roles.
CO409.3 Demonstrate code of Ethics applied in Engineering.
CO409.4 Discuss the Ethical issues, responsibilities and rights in the society.
CO409.5 Summarize the social responsibility on multinational corporations related to engineering.
After successful completion of the course, the students should be able to
Course Outcome No. CO410
Subject Code & Name : CS8080- Information Reterivel Techniques Department: CSE Year/Sem: IV/08
Course Outcome No. Course Outcome
CO410.1 Explain the basic concept of information retrieval.
CO410.2 Classify the appropriate method of classification or clustering for modelling and retrieval evaluation.
CO410.3 Design and implement innovative features in a web search engine.
CO410.4 Implement a recommender system.
CO410.5 Demonstrate an open source search engine framework , work flow and its capabilities
After successful completion of the course, the students should be able to
Course Outcome No.CO411
Subject Code & Name : CS8811- Project Work Department: CSE Year/Sem: IV/08
Course Outcome No. Course Outcome
CO411.1 Identify the problem by applying acquired knowledge and survey the relevant literature for getting exposed to related solutions.
CO411.2 Analyze and categorize executable project modules after considering risks.
CO411.3 Choose efficient tools for designing project modules.
CO411.4 Combine all the modules through effective team work after efficient testing.
CO411.5 Implement and test solutions to trace against the user requirements.
CO411.6 Elaborate the completed task and compile the project report.
S.NO COURSE CODE COURSE TITLE L T P C
1 HS8151 communicative english 4 0 0 4
2 MA8151 Engineering Mathematics – I 4 0 0 4
3 PH8151 Engineering Physics 3 0 0 3
4 CY8151 Engineering Chemistry 3 0 0 3
5 GE8151 problem solving and python programming 3 0 0 3
6 GE8152 Engineering Graphics 6 0 4 4
7 GE8161 Problem solving and python programming laboratory 0 0 4 2
8 BS8161 Physics and chemistry laboratory 0 0 4 2
S.NO COURSE CODE COURSE TITLE L T P C
1 HS8251 Technical English 4 0 0 4
2 MA8251 Engineering Mathematics – II 3 0 0 3
3 PH8253 Physics for electronics Engineering 3 0 0 3
4 BE8254 Basic Electrical and Instrumentation Engineering 4 0 0 4
5 EC8251 Circuit analysis 3 0 0 3
6 EC8252 Electronic devices 3 0 0 3
7 GE8261 Engineering Practices laboratory 0 0 4 2
8 EC8261 Circuits and Devices Laboratory 0 0 4 2
REGULATION - 2017
THEORY
PRACTICALS
THEORY
PRACTICALS
SEMESTER 2
SEMESTER 1
JEPPIAAR INSTITUTE OF TECHNOLOGY
"Self Belief | Self Discipline | Self Respect"
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGIEEERING
I - VIII SEMESTERS CURRICULUM & SYLLABUS
S.NO COURSE CODE COURSE TITLE L T P C
1 MA8352 Linear algebra and partial differential equations 4 0 0 4
2 EC8393 Fundamentals of data structures in C 3 0 0 3
3 EC8351 Electronic Circuits- I 3 0 0 3
4 EC8352 Signals and Systems 4 0 0 4
5 EC8392 digital electronics 3 0 0 3
6 EC8391 Control system engineering 3 0 0 3
7 EC8381 Fundamentals of data structures in C Laboratory 0 0 4 2
8 EC8361 Analog and digital system laboratory 0 0 4 2
9 HS8391 Interpersonal skill/Listening &speaking 0 0 2 1
S.NO COURSE CODE COURSE TITLE L T P C
1 MA8451 Probability and Random Processes 4 0 0 4
2 EC8452 Electronic Circuits II 3 0 0 3
3 EC8491 Communication Theory 3 0 0 3
4 EC8451 Electromagnetic Fields 4 0 0 4
5 EC8453 Linear Integrated Circuits 3 0 0 3
6 GE8291 Environmental science and engineering 3 0 0 3
7 EC8461 Circuit design and Simulation Laboratory 0 0 4 2
8 EC8462 Linear Integrated Circuit Laboratory 0 0 4 2
S.NO COURSE CODE COURSE TITLE L T P C
THEORY
PRACTICALS
SEMESTER 5
SEMESTER 3
THEORY
PRACTICALS
SEMESTER 4
1 EC8501 Digital Communication 3 0 0 3
2 EC8553 Discrete time-Signal Processing 4 0 0 4
3 EC8552 Computer architecture and organisation 3 0 0 3
4 EC8551 communication networks 3 0 0 3
5 GE8077 total quality management 3 0 0 3
6 OMD551 Basics of biomedical instrumentation 3 0 0 3
6 EC6511 Digital Signal Processing Laboratory 0 0 4 2
7 EC6512 Communication System Laboratory 0 0 4 2
8 EC6513 Microprocessor and Microcontroller Laboratory 0 0 4 2
S.NO COURSE CODE COURSE TITLE L T P C
10 EC8691 Microprocessors and microcontrollers 3 0 0 3
11 EC8095 VLSI Design 3 0 0 3
12 EC8652 Wireless communication 3 0 0 3
13 MG8591 Principles of management 3 0 0 3
14 EC8651 Transmission lines and RF systems 3 0 0 3
15 EC8004 wireless networks 3 0 0 3
16 EC8681 Microprocessors and microcontrollers 0 0 4 2
17 EC8661 VLSI Design Laboratory 0 0 4 2
18 EC8611 Technical seminar 0 0 2 1
19 HS8581 Professional Communication 0 0 2 1
S.NO COURSE CODE COURSE TITLE L T P C
SEMESTER 7
THEORY
PRACTICALS
SEMESTER 6
THEORY
PRACTICALS
THEORY
1 EC8701 Antenna and microwave engineering 3 0 0 3
2 EC8751 Optical Communication 3 0 0 3
3 EC8791 Embedded and Real Time Systems 3 0 0 3
4 EC8702 Adhoc and wireless sensor networks 3 0 0 3
5 Professional elective-II 3 0 0 3
6 Open elective-II 3 0 0 3
7 EC8711 Embedded Laboratory 0 0 4 2
8 EC8761 Advanced communication laboratory 0 0 4 2
S.NO COURSE CODE COURSE TITLE L T P C
1 Professional elective-IV 3 0 0 3
2 Professional Elective-V 3 0 0 3
3
4
5 EC8811 Project Work 20 10
PRACTICALS
PRACTICALS
SEMESTER 8
THEORY
Highest Cognitive Level
K3, A2
K2, A2
A2
A2
A3
Highest Cognitive Level
K2
K2
"Self Belief | Self Discipline | Self Respect"REGULATION - 2017
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGIEEERING
JEPPIAAR INSTITUTE OF TECHNOLOGY
SEMESTER 1
Subject Code & Name : HS8151 -Communicative English Year/Sem: I/IDepartment: ECE
Subject Code & Name : MA8151 - Engineering Mathematics – I Department: ECE
CO102.1 Use both the limit definition and rules of differentiation to differentiate functions
CO102.2 Associate differentiation to solve maxima and minima problems
CO101
CO102
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Year/Sem: I/I
CO101.5 Listen, comprehend and respond to different spoken and written discourses/excerpts in different accents and write different genres of texts adopting various writing strategies.
CO101.2 Strengthen general comprehending skills and present lucid skills in free writing
CO101.3 Foster an environment for reading and develop good language skills.
CO101.4 Speak, read and write effectively for a variety of professional and social settings
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO101.1 Enable the development of basic grammar to enhance language for a better communication
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
CO104
After successful completion of the course, the students should be able to
Subject Code & Name :CY8151-Engineering Chemistry Department: ECE Year/Sem: I/I
CO103.4 Describe advanced physics concepts of quantum theory and its applications in tunneling microscopes
CO103.5 Summarize the basics of crystals and their structures and different crystal growth techniques
CO103.1 Explain the basics of properties of matter and its applications.
CO103.2 Identify the concepts of waves and optical devices and their applications in fibre optics
CO103.3 Demonstrate the concepts of thermal properties of materials and their applications in expansion joints and heat exchangers
CO103
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Subject Code & Name :PH8151 - Engineering Physics Department: ECE Year/Sem: I/I
CO102.4 Associate integration to compute multiple integrals, area, volume, integrals in polar coordinates, in addition to change of order and change of variables
CO102.5 Explain various techniques in solving differential equations
CO102.3 Discuss integrals both by using Riemann sums and by using the Fundamental Theorem of Calculus Also Evaluate integrals using techniques of integration, such as substitution, partial fractions and integration by parts
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K3
K2
K3
CO106
CO105.4 Examine the programs with sub problems using ‘Python’ language
CO105.5 Compute the compound data using Python lists, tuples, and dictionaries
CO105.6 Apply python programs to read and write data from/to files
CO105.1 Discuss the logical solutions through Flowcharts, Algorithms and Pseudo code.
CO105.2 Explain the syntax for python programming constructs.
CO105.3 Compute the flow of the program to obtain the programmatic solution.
CO105
Subject Code & Name : GE8151-problem solving and python programming Department: ECE Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO104.5 Classify the types of batteries, their reactions and the significance of storage renewable energy resources.
CO104.2 Identify the factors affecting the rate of adsorption and catalytic activity.
CO104.3 Interpret the Concept of phase rule, its various phase diagrams and predict the low melting alloys
CO104.4 Enumerate various solid, liquid and gaseous fuels, manufacturing methods and basic reactions involved in combustion reactions
Course Outcome No. Course Outcome
CO104.1 Predict the type of troubles present in boilers and the methods used to treat hard water.
Highest Cognitive Level
K2
K1
K3
K3
K1
K3
Highest Cognitive Level
K1
K3
K3
K3
K1
K3
A3
CO107.1 Write, test, and debug simple Python programs.
CO107.2 Apply the concept of conditionals and loops in Python programs.
CO107.3 Develop the Python programs step-wise by defining functions and calling them.
CO107
Subject Code & Name : GE8161- Problem solving and python programming laboratory Department: ECE Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO106.6 Apply the concept of drawing in practical applications.
CO106.3 Classify solids and projection of solids at different positions.
CO106.4 Show sectioned view of solids and development of surface.
CO106.5 Draw isometric projection and perspective views of an object/solid.
Course Outcome No. Course Outcome
CO106.1 Discuss about conics and orthographic views of engineering components.
CO106.2 Draw the projection of points, lines and planes.
Subject Code & Name : GE8152 - Engineering Graphics Department: ECE Year/Sem: I/I
After successful completion of the course, the students should be able to
CO107.4
CO107.5
CO107.6
CO107.7
Use Python lists, tuples, dictionaries for representing compound data.
Read and write data from/to files in Python.
Apply the concept of Pygame.
Exhibit ethical principles in engineering practices.
A3
A3
A2
Highest Cognitive Level
K2
K2
K2
K2
K2
K2
K2
K2
K2
K2
A3
CO108.4
Determine the amount of chloride content in the given water sample.
CO108.5
Exhibit ethical principles in engineering practices.
CO108.1
Estimate the amount of the given acids using conductometric titrations.
CO108.2
Estimate the amount of the given acids using pH titrations.
CO108.3
Determine the amount of iron content in the given substance using potentiometric titration.
CO108
Subject Code & Name :BS8161 -Physics and chemistry laboratory Department: ECE
CO107.9
CO107.10
Year/Sem: I/I
CO108.6
Determine the Modulus of elasticity of materials and Coefficient of Viscosity of liquids.
Determine the Thermal Conductivity of bad conductor using Lee’s disc method
Calculate the Compressibility of liquids and velocity of ultrasonic waves in liquids.
Measure the wavelength of prominent spectral lines of Mercury Spectrum and particle size of powder using diffraction phenomenon and thickness of thin materials using interference phenomenon.
Determine the band gap energy of a semiconductor.
Calculate water quality parameters such as hardness, alkalinity of the given water sample.
CO107.8 Perform task as an individual and / or team member to manage the task in time.
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO108.7
CO108.8
CO108.9
CO108.10
CO108.11
A3
A3
A2CO108.14 Interpret the findings with appropriate technological / research citation.
Perform task as an individual and / or team member to manage the task in time.
Express the Engineering activities with effective presentation and report.
CO108.12
CO108.13
Highest Cognitive Level
K2, A2
K3, A2
K3, A2
A2
A2
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K3
K2
K3
K2
Highest Cognitive Level
K3
K3
K2
K3
K3
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K1
K3
K3
JEPPIAAR INSTITUTE OF TECHNOLOGY"Self Belief | Self Discipline | Self Respect"
REGULATION - 2017
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGIEEERING
CO115.3
Course Outcome No. Course Outcome
CO115.1
CO115.2
Identify Tools and Techniques used for Sheet Metal Fabrication
Use welding equipment to join the structures
Demonstrate Plumbing requirements of domestic buildings.
CO115
Subject Code & Name : GE8261 Engineering Practices laboratory Department: ECE Year/Sem: I/2
After successful completion of the course, the students should be able to
CO114.3 Illustrate biasing of transistors and FETs for amplifier applications.
CO114.4 Study and analyze the behavior of special semiconductor devices.
CO114.5 Discuss the operation of power and display devices.
Course Outcome No. Course Outcome
CO114.1 Study and Analyze the behavior of semiconductor devices.
CO114.2 Characterize the current flow of bipolar transistor in CB, CE, and CC configuration.
CO114
Subject Code & Name : EC8252 & Electronic devices Department: ECE Year/Sem: I/2
After successful completion of the course, the students should be able to
CO113.3 Calculate the response of the series and parallel resonance circuits.
CO113.4 Obtain the transient responds of the circuit
CO113.5 Understand the concepts of two port network in various parameters.
Course Outcome No. Course Outcome
CO113.1 Develop the capacity to analyze electrical circuits using nodal analysis & network terminology.
CO113.2 Apply network theorem concepts to solve AC and DC circuits .
CO113
Subject Code & Name : EC8251 & Circuit analysis Department: ECE Year/Sem: I/2
After successful completion of the course, the students should be able to
CO112.3 Demonstrate the principle of operation, starting and speed control of D.C Machines
CO112.4 Describe the construction , principle of operation and performance of A.C machines
CO112.5 Explain the working principle of various measuring instruments and the classification of transducers
Course Outcome No. Course Outcome
CO112.1 Explain the operation of three phase electrical circuit and power measurement.
CO112.2 Explain the operation and circuit model of transformer.
CO112
Subject Code & Name : BE8254 & Basic Electrical and Instrumentation Engineering Department: ECE Year/Sem: I/2
After successful completion of the course, the students should be able to
CO111.3 Explain the properties of magnetic and dielectric properties of materials
CO111.4 Classify the functioning of optical materials for optoelectronics
CO111.5 Describe the basics of quantum structures and their applications in spintronics and carbon electronics
Course Outcome No. Course Outcome
CO111.1 Explain the classical and quantum electron theories, and energy band structures
CO111.2 Describe the basics of semiconductor physics and its applications in various devices
CO111
Subject Code & Name : PH8253-Physics for electronics Engineering Department: ECE Year/Sem: I/2
After successful completion of the course, the students should be able to
CO110.3 Discuss analytic functions in heat and fluid flow.
CO110.4 Extend the concept of contour integrals in evaluating Real integrals.
CO110.5 Discuss Laplace Transform methods to solve initial value problems for constantcoefficient linear ODEs.
Course Outcome No. Course Outcome
CO110.1 Compute the Diagonalize symmetric matrices and similar matrices using Eigen values and Eigen vectors.
CO110.2 Explain gradients, potential functions, and directional derivatives of functions ofseveral variables. Also Compute line, surface and volume integral using Gauss divergence, Green’s
CO110
Subject Code & Name : MA8251 - Engineering Mathematics – II Department: ECE Year/Sem: I/2
After successful completion of the course, the students should be able to
CO & PO and PSO Mapping
SEMESTER-2
CO109
Subject Code & Name : HS8251 -Technical English Department: ECE Year/Sem: I/2
After successful completion of the course, the students should be able to
CO109.3 Develop Formal and informal communication is easy to speak fluently and impeccably
CO109.4 Write job application and resume, Bio-data and Profile with cover letter
CO109.5 Understand technical article, writing reports and minutes of meeting.
Course Outcome No. Course Outcome
CO109.1 Reading technical texts and writing by the Pupils on area-specific texts effectively and effortlessly
CO109.2 Expand comprehensive skills to listen a lecture and talks in their area of specialization successfully.
K3
K2
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K2
K3
K3
K3
K3
K2
K2
A3
A3
A3
A2
CO116.6 Understand the measurement of frequency using CRO
CO116.8
CO116.9
CO116.10
CO116.11
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
Verify the outcomes of KCL, KVL, Thevenin, Norton & Superposition theorems.CO116.7
CO116.3 Observe and analyse thethyristor characteristics
CO116.4 Observe and analyse the operation of positive, negative and combinational clippers
CO116.5 Observe and analyse the operation of half wave rectifier, full wave rectifier with and without capacitive filters
Course Outcome No. Course Outcome
CO116.1 Construct circuits by applying the theoretical knowledge gained in electron devices
CO116.2 Analyse the electrical characteristics of unipolar and bipolar devices with the constructed circuits
CO116
Subject Code & Name : EC8261 Circuits and Devices Laboratory Department: ECE Year/Sem: I/2
After successful completion of the course, the students should be able to
CO115.11 Interpret the findings with appropriate technological / research citation.
Exhibit ethical principles in engineering practices
CO115.4
Perform task as an individual and / or team member to manage the task in time
CO115.5
Express the Engineering activities with effective presentation and report.
Explain the working of electronic components and its utilization
Apply electronic principles to develop circuits for primitive application
Apply the skills of basic electrical engineering for house wiring practice
Measure various electrical quantities
CO115.6
CO115.7
CO115.8
CO115.9
CO115.10
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K3
K3
K3
K2
Highest Cognitive Level
K2
K3
K3
K3
K3
Highest Cognitive Level
K2
K2
K3
K2
K2
Highest Cognitive Level
K2
K3
K3
K3
K2
Highest Cognitive Level
K3
K2
K3
K3
K3
Highest Cognitive Level
K2
K3
K3
JEPPIAAR INSTITUTE OF TECHNOLOGY"Self Belief | Self Discipline | Self Respect"
REGULATION - 2017DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGIEEERING
CO207.3 Compare various file handling methods
Course Outcome No. Course Outcome
CO207.1 Analyze the concepts of OOPS to write C++ programs
CO207.2 Implements ADTs in C++
CO207
Subject Code & Name : EC8381 & Fundamentals of data structures in C Laboratory
Department: ECE Year/Sem: II/3
After successful completion of the course, the students should be able to
CO206.3 Describe the methods to determine frequency response of a system
CO206.4 Design the compensation techniques to stabilize the control system
CO206.5 Analyze the system using state variable method
Course Outcome No. Course Outcome
CO206.1 Compute the transfer function model of electrical and mechanical systems
CO206.2 Describe the methods to determine time response of a system
CO206
Subject Code & Name : EC8391 &Control system engineering Department: ECE Year/Sem: II/3
After successful completion of the course, the students should be able to
CO205.3 Implement Synchronous sequential circuits for a given applications
CO205.4 Implement Asynchronous sequential circuits for a given applications
CO205.5 Design the combinational logic circuits using Programmable logic devices & summarize the types of memory devices
Course Outcome No. Course Outcome
CO205.1 Realize the Boolean Expression using Logic Gates
CO205.2 Design Combinational Circuits for a given functions using logic gates
CO205
Subject Code & Name : EC8392 & Digital Electronics Department: ECE Year/Sem: II/3
After successful completion of the course, the students should be able to
CO204.3 Determine the response of LTI-CT systems in time domain and frequency domain
CO204.4 Convert Discrete time signals from time domain into frequency domain
CO204.5 Apply DFT and determine the response of LTI-DT systems in time domain and frequency domain
Course Outcome No. Course Outcome
CO204.1 Classify Signals and Systems in time domain
CO204.2 Convert Continuous time signals from time domain into frequency domain
CO204
Subject Code & Name : EC8352& Signals and Systems Department: ECE Year/Sem: II/3
After successful completion of the course, the students should be able to
C0203.3 Analyze JFET amplifiers using small signal equivalent model.
C0203.4 Analyze MOSFET amplifiers using small signal equivalent model.
C0203.5 Determine the Frequency Response of Single stage & Multistage Amplifier
Course Outcome No. Course Outcome
C0203.1 Design the amplifier circuits using various biasing methods
C0203.2 Analyze the single stage & multistage BJT amplifiers using small signal equivalent model.
CO203
Subject Code & Name : EC8351& Electronic Circuits- I Department: ECE Year/Sem: II/3
After successful completion of the course, the students should be able to
C0202.3 Implement the various linear data structures opertions in C
C0202.4 Implement the various nonlinear data structures opertions in C
C0202.5 Analyze the various searching and sorting algorithms and appropriately choose it for an given real world
C0201.5 Solve engineering problems using Fourier series.
Course Outcome No. Course Outcome
C0202.1 Illustarte the basic features of C Programming and their applications
C0202.2 Enumerate the structured data types and dynamic memory objects and apply for real world scenario
CO202
Subject Code & Name : EC8393& Fundamentals of data structures in C Department: ECE Year/Sem: II/3
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
C0201.1 Explain the fundamental concepts of advanced algebra and their role in modern mathematics and applied contexts.
C0201.2 Demonstrate accurate and efficient use of advanced algebraic techniques.
SEMESTER 3
CO201
Subject Code & Name : MA8352 &Linear algebra and partial differential equations Department: ECE Year/Sem: II/3
After successful completion of the course, the students should be able to
C0201.3 Demonstrate their mastery by solving non - trivial problems related to the concepts and by proving simple theorems about the statements proven by the text.
C0201.4 Solve various types of partial differential equations.
K3
K2
A3
A3
A3
A2
Highest Cognitive Level
K3
K3
K3
K3
K2
K2
A3
A3
A3
A2
Highest Cognitive Level
K2
K2
K2
K2
K2
A3
A3
A3
A2
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
CO207.5
CO207.6
CO207.7
CO207.8
CO207.9
Develop Simple packages in JAVA
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO209.1 Involves the students in Presentations and Group Discussions to improve the listening and speaking skills
CO209.2 Analyse, distinguish and Prepare their own resume and report.
CO209
Subject Code & Name : HS8381& Interpersonal skill/Listening &speaking Department: ECE Year/Sem: II/3
After successful completion of the course, the students should be able to
CO209.3 Practice on national and international exams to improve the verbal ability of the students
CO209.4 Fosters interview skills so as to be successful in them.
CO209.5 Promotes adequate Soft Skills required for the workplace and long-term career.
CO209.9 Interpret the findings with appropriate technological / research citation.
CO209.6
CO209.7
CO209.8
Exhibit ethical principles in engineering practices
CO208.3 Implement amplifier circuits using Spice Simulation Software
CO208.4 Realize combinational circuits using Logic Gates
CO208.5 Implement various counters using Flip Flops
CO208.8 Perform task as an individual and / or team member to manage the task in time
CO208.7 Exhibit ethical principles in engineering practices
CO208.6 Realize the shift registers using Flip Flops
CO208.9
CO208.10
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
Course Outcome No. Course Outcome
CO208.1 Determin the frequency response of Single Stage Amplifiers
CO208.2 Determin the frequency response of Cascode & Cacade Amplifiers
CO208
Subject Code & Name : EC8361&Analog and digital system laboratory Department: ECE Year/Sem: II/3
After successful completion of the course, the students should be able to
CO207.4 Implement simple JAVA Applications
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K3
K3
K3
K3
K2
Highest Cognitive Level
K2
K2
K3
K3
K2
Highest Cognitive Level
K2
K3
K3
K3
K2
Highest Cognitive Level
K2
K3
K2
K3
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Course Outcome No. Course Outcome
Subject Code & Name : GE8291 Environmental science and engineering Department: ECE Year/Sem: II/4
After successful completion of the course, the students should be able to
CO215
CO213
Subject Code & Name : EC8451 - Electromagnetic Fields Department: ECE Year/Sem: II/4
CO213.5 Explain the basic concepts of electromagnetic waves, parameters and its propagation in lossy and in lossless medias.
CO213.2 Interpret the concepts of electrical potential, energy density and their applications
CO213.3 Summarize the concepts of magneto statics, magnetic flux density, scalar and vector potential and its applications
CO213.4 Describe the concepts of Faradays law , Induced emf and Maxwell's equations to analyze the electrodynamics fields.
Course Outcome No.
CO216
Subject Code & Name : EC8461 Circuit design and Simulation Laboratory Department: ECE Year/Sem: II/4
CO215.4 Illustrate the importance of environment by assessing its impact on the human world.
CO215.5
CO215.1 Interpret the basic concept of Ecosystems and Biodiversity.
CO215.2 Distinguish the types of pollution and its control measures.
CO215.3 Describe the importance of natural resources and Disaster management.
Summarize the population related issues and types of welfare programmes in the society.
CO214.5 Infer the applications of special function IC's
CO214.2 Apply the multiplier IC's and PLL in various applications
CO214.3 Compare the specifications of ADC and DAC
CO214.4 Design oscillators and Voltage Regulators
Course Outcome No. Course Outcome
CO214.1 Describe the linear and nonlinear applications of OP – AMPS
After successful completion of the course, the students should be able to
CO214
Subject Code & Name : EC8453 Linear Integrated Circuits Department: ECE Year/Sem: II/4
Course Outcome
CO213.1 Explain the basic mathematical concepts related to electromagnetic fields & Electrostatic fields
After successful completion of the course, the students should be able to
CO212.3 Solve communication Engineering problems by applying the concepts of random process
CO212.4 Compare the Noise performnace of AM & FM systems.
CO212.5 Illustrate the principles of sampling & quantization
Course Outcome No. Course Outcome
CO212.1 Describe the concepts of various analog modulations and their spectral characteristics
CO212.2 Summarize the concepts various angle modulation techniques
CO212
Subject Code & Name : EC8491 - Communication Theory Department: ECE Year/Sem: II/4
After successful completion of the course, the students should be able to
CO211.3 Analyze the performance of various tuned amplifiers
CO211.4 Design the different types of Wave Shaping and Multivibrators
CO211.5 Summarize the operation of Power Amplifiers
Course Outcome No. Course Outcome
CO211.1 Analyze the different types of Feedback Amplifier Circuits
CO211.2 Design the different types of Oscillators for given specifications
CO211
Subject Code & Name : EC8452 - Electronic Circuits II Department: ECE Year/Sem: II/4
CO210.5 Interpret of various distribution functions and help in acquiring skills in handling situations involving more than one variable. Able to response of random inputs to linear time invariant systems.
After successful completion of the course, the students should be able to
CO210.3 Demonstate the concept random processes in engineering disciplines.
Subject Code & Name :MA8451 Probability and Random Processes Department: ECE Year/Sem: II/4
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO210.4 Describe the concept of correlation and spectral densities.
JEPPIAAR INSTITUTE OF TECHNOLOGY"Self Belief | Self Discipline | Self Respect"
REGULATION - 2017DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGIEEERING
SEMESTER 4
CO210
CO210.1 Develop the fundamental knowledge of the concepts of probability and have knowledge of standard distributions which can describe real life phenomenon.
CO210.2 Describe the basic concepts of one and two dimensional random variables and apply in engineering applications.
Highest Cognitive Level
K3
K3
K3
K3
K3
K2
A3
A3
A3
A2
Highest Cognitive Level
K2
K3
K3
K3
K3
K3
A3
A3
A3
A2
Perform task as an individual and / or team member to manage the task in time
After successful completion of the course, the students should be able to
CO216.7 Exhibit ethical principles in engineering practices
CO216.8 Perform task as an individual and / or team member to manage the task in time
CO216.9 Express the Engineering activities with effective presentation and report.
Course Outcome No. Course Outcome
CO216.1 Design series and shunt feedback amplifiers - Frequency Response, Input and Output impedance
CO216.2 Design and Analysis of Oscillators (RC Phase Shift, Wein Bridge, Hartley & Colpitts)
CO217.1 Verify the operation of circuits using various Analog IC's
CO217.2 Discuss the working of various function generating cirucits using discrete elements and SPICE Software
CO217.3 Design Instrumentation amplifier using OPAMP and Frequency Multiplier PLL
Course Outcome No. Course Outcome
Subject Code & Name :EC8462 & Linear Integrated Circuit Laboratory Department: ECE
CO217.9 Express the Engineering activities with effective presentation and report.
CO217.10 Interpret the findings with appropriate technological / research citation.
CO217.4 Verify working of Mulivibrators using Analog IC's
CO217.5 Build first and second order practical active filters using Analog IC's
CO217.6 Test A/D and D/A converters, Multipliers and Modulators using SPICE Software
CO217.7 Exhibit ethical principles in engineering practices
CO217.8
Year/Sem: II/4
After successful completion of the course, the students should be able to
CO217
CO216.6 Simulate Oscillators, Tuned Amplifers and power amplifers using SPICE Tool.
CO216.10
CO216.3 Design of Single tuned Amplifiers
CO216.4 Design & Analysis of RC Integrator and Differentiator Circuits
CO216.5 Design Clippers and Clampers Circuit
Interpret the findings with appropriate technological / research citation.
Highest Cognitive Level
K2K2
K2
K2
K2
Highest Cognitive Level
K2
K3
K3
K3
K2
K3
Highest Cognitive Level
K2
K3
K2
K2
K2
Highest Cognitive Level
K2
K2
K3
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K2CO308.1 Analyze the effects of sampling and TDM
Subject Code & Name : EC8561 & Communication System Laboratory Department: ECE Year/Sem: III/5
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO307.9 Interpret the findings with appropriate technological / research citation.
CO308
CO307.6 Exhibit ethical principles in engineering practices
CO307.7 Perform task as an individual and / or team member to manage the task in time
CO307.8 Express the Engineering activities with effective presentation and report.
CO307.1 Generate various signals using MATLAB and DSP processor
CO307.2 Implement Linear and circular convolution programs and Frequency Analysis using DFT in MATLAB
CO307.3 Implement Auto correlation and Cross Correlation using MATLAB
CO307.4 Design FIR and IIR Filters using MATLAB and DSP Processor
CO307.5 Analyze the architecture of a DSP Processor and to implement Up-sampling and Down-sampling operation in DSP Processor
Subject Code & Name : EC8562& Digital Signal Processing Laboratory Department: ECE Year/Sem: III/5
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO306.4 Summarize the different measurement techniques for non-physiological parameters
CO306.5 Categorize the different types of biochemical measurement
CO307
CO306.1 Outline different biopotential electrodes and its propagation mechanism
CO306.2 Ilustrate different types of electrodes and its placement for various recording
CO306.3 Describe the concepts of bio ampifiers for various physiological recording
Subject Code & Name :OMD551 & Basics of biomedical instrumentation Department: ECE Year/Sem: III/5
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO306
CO305.5 Summarize the quality systems and procedures adopted.
CO305.2 Apply TQM principles and concepts of continuous improvement.
CO305.3 Distinguish the quality tools, management tools and statistical fundamentals to improve quality.
CO305.4 Identify the TQM tools as a means to improve quality.
CO305
Subject Code & Name : GE8077 & Total quality management Department: ECE Year/Sem: III/5
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Demonstrate the flow of information from one process to another processin the network
CO304.5 Discuss the various aplication layer protocols
Year/Sem: III/5
Course Outcome No. Course Outcome
CO304.1 Describe the Internet Architecture and Link Layer Services
CO304.2 Compare various media access and internetworking protocols
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO303.1 Describe Addressing modes, data representation, instruction formats and the operation of a digital computer
CO303.2 Apply the fixed point and floating-point arithmetic for ALU operation
CO303
Subject Code & Name : EC8552 & Computer Architecture and Organisation Department: ECE Year/Sem: III/5
After successful completion of the course, the students should be able to
CO302.4 Illustrate the effects of finite representation of numbers
CO302.5 Explain Some applications and architecture of digital signal processor
CO302.6 Implement digital filter with the use of MATLAB
CO302.1 Apply DFT for the analysis of digital signals
CO302.2 Design IIR Digital Filters.
CO302.3 Realize FIR filters using windows and sampling technique
CO302
Course Outcome No. Course Outcome
Subject Code & Name : EC8553 & Discrete time-Signal Processing
CO305.1 Discuss the quality concepts and philosophies of TQM
After successful completion of the course, the students should be able to
CO304
Subject Code & Name EC8551 & Communication Networks Department: ECE
CO303.3 Discuss about implementation schemes of control unit and pipeline performance
CO303.4 Describe the concept of various memories, interfacing and organization of multiple processors
CO303.5 Interpret parallel processing technique and unconventional architectures
CO304.3 Apply various routing protocols and algorithms for a given network along with IP addresses
CO304.4
Department: ECE Year/Sem: III/5
CO301.4 Explain the concepts of different band bass moduation techniques
CO301.5 Describe the performance of different error control coding schemes
CO301.1 Describe the concepts of information theory and soource coding techniquesCO301.2 Ilustrate the performance of different types of line codes
CO301.3 Classify the generation and detection of baseband systems
Subject Code & Name : EC8501& Digital Communication Department: ECE Year/Sem: III/5 After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
JEPPIAAR INSTITUTE OF TECHNOLOGY"Self Belief | Self Discipline | Self Respect"
REGULATION - 2017
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGIEEERING
SEMESTER 5
CO301
K3
K3
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
K2
K3
K3
K3
K3
A3
A3
A3
A2
CO309.7 Perform task as an individual and / or team member to manage the task in time
CO309.8 Express the Engineering activities with effective presentation and report.
CO309.9 Interpret the findings with appropriate technological / research citation.
CO309.4 Implement and compare the different routing algorithms.
CO309.5 Simulate the algorithms with the help of Network Simulator tool.
CO309.6 Exhibit ethical principles in engineering practices
CO309.1 Perform client-server communication between two desktop computers using Socket Programming.
CO309.2 Implement the different protocols.
CO309.3 Simulate various network topologies like Star, Bus and Ring.
Subject Code & Name : EC8563 & Communication Networks Laboratory Department: ECE Year/Sem: III/5
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO308.9 Interpret the findings with appropriate technological / research citation.
CO309
Implement various Error control coding schemes
CO308.6 Exhibit ethical principles in engineering practices
CO308.7 Perform task as an individual and / or team member to manage the task in time
CO308.8 Express the Engineering activities with effective presentation and report.
CO308.2 Design AM & FM modulation and demodulation
CO308.3 Implement Pulse Code Modulation and Delta Modulation
CO308.4 Implement the signal constellations of Digital Modulation schemes
CO308.5
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive LevelK2
K3
K2
K2
K2
Highest Cognitive Level
K2
K2
K3
K3
K3
Highest Cognitive LevelK2
K2
K2
K2
K2
Highest Cognitive Level
K2
K2
JEPPIAAR INSTITUTE OF TECHNOLOGY"Self Belief | Self Discipline | Self Respect"
REGULATION - 2017DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGIEEERING
Course Outcome No. Course Outcome
CO314.1 Illustrate the characteristics of transmission lines and its losses
CO314.2 Demonstrate the concept of standing wave ratio and input impedance in high frequency transmission lines
CO314
Subject Code & Name : EC8651& Transmission lines and RF systems Department: ECE Year/Sem: III/6
After successful completion of the course, the students should be able to
CO313.3 Elaborate organizing by Job design, HR planning, training and development
CO313.4 Describe directing through motivation, leadership and effective communication
CO313.5 Explain controlling through control techniques and reporting
Course Outcome No. Course Outcome
CO313.1 Outline management and organization
CO313.2 Describe planning tools and techniques used in management
CO313
Subject Code & Name : MG8591& Principles of management Department: ECE Year/Sem: III/6
After successful completion of the course, the students should be able to
CO312.3 Use various signaling schemes for wireless communication channels
CO312.4 Compare the performance of channel using various propagation models
CO312.5 Analyze the various mitigation techniques to address fading and interference in multipath propagation
Course Outcome No. Course Outcome
CO312.1 Explain the characteristics of Fading in Wireless Channel
CO312.2 Describe the fundamental of Cellular Architecture
CO312
Subject Code & Name : EC8652 & Wireless communication Department: ECE Year/Sem: III/6
After successful completion of the course, the students should be able to
CO311.3 Illustrate various sequential circuits using various logic family and classify various memory in Synchronous and asynchronous design
CO311.4 Classify various arithmetic building blocks and its characteristics
CO311.5 Explain about the implementation strategies for FPGA and Testing Methodologies
Course Outcome No. Course Outcome
CO311.1 Describe the Electrical characteristics of MOS Transistor and its layout conversion
CO311.2 Realize various logic gates and functions using different logic families
Subject Code & Name : EC8095 &VLSI Design Department: ECE Year/Sem: III/6
After successful completion of the course, the students should be able to
SEMESTER 6
CO310
Subject Code & Name : EC8691 & Microprocessors and microcontrollers Department: ECE Year/Sem: III/6
After successful completion of the course, the students should be able to
CO310.3 Explain the various interfacing modules with 8086 Microprocessor
CO310.4 Illustrate the architecture of 8051 microcontroller
CO310.5 Explain about various interfacing modules with 8051 microcontroller
Course Outcome No. Course Outcome
CO310.1 Discuss about internal architecture of 8086 Microprocessor
CO310.2 Discuss about system bus structure of 8086 Microprocessor
CO311
K3
K2
K3
Highest Cognitive Level
K2
K2
K2
K2
K2
Highest Cognitive Level
K2
K3
K3
K2
K3
K3
A3
A3
A3
A2
Highest Cognitive Level
A3
A3
A3
A3
A3
Highest Cognitive Level
A3
A3
A3
A3
A3
CO319.2 Make Effective presentations
CO319.3 Particiapte confidentially in Group Presentation
CO319.4 Attend Interviews and be successful in them
CO319.5 Develop adequate skills that are required for the workplace
CO319
Subject Code & Name : EC8581 & Professional Communication Department: ECE Year/Sem: III/6
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO319.1 Enhance the Employability & Career Skills
CO318.3 Outline the understanding of papers and authors contributions and critically analyzing each paper.
CO318.4 Outline the linking odf papers and preparing a draft of the paper.
CO318.5 Describe the writing of final Paper and giving final Presentation
Course Outcome No. Course Outcome
CO318.1 Describe the selection of a subject, narrowing the subject into a topic and stating an objective.
CO318.2 Illustrate to collect the relevant bibliography and preparing a working outline.
CO318
After successful completion of the course, the students should be able to
Subject Code & Name : EC8611 & Technical seminar Department: ECE Year/Sem: III/6
CO316.3 Generate waveforms using Microprocessor
CO316.4 Execute programs in 8051 Microcontroller
CO316.7 Exhibit ethical principles in engineering practices
Course Outcome No. Course Outcome
CO316.1 Write and execute ALP Program using Microporcessor
CO316.2 Inteface different I/O's with Microprocessor
CO316.5
CO316.6
Develop a program to communicate Microprocessor with Pesonal Computer
Use a combination of Hardware and software to solve a real time problem
CO316
Subject Code & Name : EC8681 & Microprocessors and microcontrollers laborat Department: ECE Year/Sem: III/6
After successful completion of the course, the students should be able to
CO315.3 Discuss about 3G Network with applications
CO315.4 Explain about internetworking between WLANS and WWANS
CO315.5 Discuss about 4G Network with applications
Course Outcome No. Course Outcome
CO315.1 Discuss about various Wireless Network and IEEE Standards
CO315.2 Explain about the Mobile Network layer and Network Solutions
CO315
Subject Code & Name : EC8004 & Wireless Networks Department: ECE Year/Sem: III/6
After successful completion of the course, the students should be able to
CO314.3 Analyze impedance matching by stubs using smith charts
CO314.4 Analyze the characteristics of TE and TM waves
CO314.5 Design a RF transceiver system for wireless communication
CO316.8 Perform task as an individual and / or team member to manage the task in time
CO316.9
CO316.10
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
Highest Cognitive Level
Highest Cognitive Level
Highest Cognitive Level
Highest Cognitive Level
Highest Cognitive Level
JEPPIAAR INSTITUTE OF TECHNOLOGY"Self Belief | Self Discipline | Self Respect"
REGULATION - 2017DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGIEEERING
SEMESTER 7
CO401
CO401.1 Analyze the basic antenna parameters and link power budget.
CO401.2 Describe the design and radiation mechanism of various types of antennas.
CO401.3 Illustrate about the various kinds of antenna arrays.
Subject Code & Name : EC8701 & Antenna and microwave engineering Department: ECE Year/Sem: IV/7
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO401.4 Describe the basic concept of various microwave devices
CO401.5 Design a microwave system for the given application.
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO402.1 Apply the fundamental concept of optical fiber modes and their configurations.
CO402.2 Analyze the various signal degradation factors associated with optical fiber.
CO402
Subject Code & Name : EC8751 &Optical Communication Department: ECE Year/Sem: IV/7
CO402.3 Explain the Various optical sources and optical detectors and their use in the optical communication system
CO402.4 Apply the techniques required to measure the optical fiber systems based on the applications.
CO402.5 Analyze the Digital Transmission and its associated parameters on system performance
Course Outcome No. Course Outcome
CO403.1 Explain the fundamental concepts of designing and the computing required for Embedded Systems.
CO403.2 Describe the architecture and programming of ARM processor.
CO403
Subject Code & Name : EC8791 & Embedded and Real Time Systems Department: ECE Year/Sem: IV/7
After successful completion of the course, the students should be able to
CO403.3 Apply the programming concepts in embedded system.
CO403.4 Analyze the techniques required for creating Real Time Embedded Systems.
CO403.5 Apply the concepts of scheduling in Real Time Operating System and creating the model for Real Time applications.
Course Outcome No. Course Outcome
CO404.1 Outline about Ad hoc network and Sensor Network fundamentals.
CO404.2 Describe about different routing protocols
CO404
Subject Code & Name : EC8702 & Adhoc and wireless sensor networks Department: ECE Year/Sem: IV/7
After successful completion of the course, the students should be able to
CO404.3 Develop in-depth knowledge on sensor network architecture and design issues
CO404.4 Illustrate the concept of transport layer and security issues possible in Ad hoc and Sensor networks
CO404.5 Demonstrate various programming platforms and tools
Course Outcome No. Course Outcome
CO405.1 Apply the knowledge about the importance of improving the data rate of wireless channel using MIMO
CO405.2 Examine about characteristics of wireless fading channels.
CO405
Subject Code & Name : EC8092 & Advanced Wireless Communication Department: ECE Year/Sem: IV/7
After successful completion of the course, the students should be able to
Highest Cognitive Level
Highest Cognitive Level
Highest Cognitive Level
CO405.3 Discuss the significance of channel impairment mitigation using space-time block codes.
CO405.4 Illustrate the channel impairment mitigation using Trellis codes
CO405.5 Discuss the evolving software defined radio and cognitive radio techniques and their essential functionalities
Course Outcome No. Course Outcome
CO406.1 Develop simple applications using basic constructs
CO406.2 Develop applications using arrays and strings
CO406
Subject Code & Name : OCS752& Introduction to C Programming Department: ECE Year/Sem: IV/7
After successful completion of the course, the students should be able to
CO406.3 Develop applications using Strings
CO406.4 Develop applications using functions
CO406.5 Develop applications using structures
Course Outcome No. Course Outcome
CO407.1 Write programs in ARM for a specific Application.
CO407. 2 Interface memory with ARM processor and write a program related to memory operations.
CO407
Subject Code & Name : EC8711& Embedded Laboratory Department: ECE Year/Sem: IV/7
After successful completion of the course, the students should be able to
CO407.6 Exhibit ethical principles in engineering practices
CO407.7 Perform task as an individual and / or team member to manage the task in time
CO407.8 Express the Engineering activities with effective presentation and report.
CO407.3 Interface A/D and D/A convertors with ARM system
CO407.4 Analyze the performance of interrupt
CO407.5 Write programs for interfacing keyboard, display, motor and sensor.
CO407.9 Interpret the findings with appropriate technological / research citation.
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO408.1 Analyze the performance of simple optical link by measurement of losses
CO408.2 Analyze the mode characteristics of fiber, eye pattern and the impact on BER
CO408
Subject Code & Name : EC8761& Advanced Communication Laboratory Department: ECE Year/Sem: IV/7
CO408.6 Exhibit ethical principles in engineering practices
CO408.7 Perform task as an individual and / or team member to manage the task in time
CO408.8 Express the Engineering activities with effective presentation and report.
CO408.3 Estimate the wireless channel characteristics and analyze the performance of wireless communication system
CO408.4 Understand the intricacies in microwave system design and analyze the characteristics of Directional Couplers, Isolators, Circulators
CO408.5 Understand the characteristics of Gunn diode and Microwave IC filter
CO408.9 Interpret the findings with appropriate technological / research citation.
Highest Cognitive Level
Highest Cognitive Level
Highest Cognitive Level
CO409
JEPPIAAR INSTITUTE OF TECHNOLOGY"Self Belief | Self Discipline | Self Respect"
REGULATION - 2017
DEPARTMENT OF ELECTRONICS & COMMUNICATION ENGIEEERING
SEMESTER 8
Subject Code & Name : GE8076& Professional Ethics in Engineering Department: ECE Year/Sem: IV/8
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO409.1 Develop their own selves, families, society and environment with the end purpose of imbibing better values in professional relationships.
CO409.2 Compare between values and skills required in professional and personal settings.
CO409.3 Describe the set of values required to excel in one’s profession.
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
CO409.4 Develop a long-term strategy of excelling in Human Relationships, Trust and Understanding.
CO409.5 Identify Global issues and solve the problems of energy scarcity
CO410
Subject Code & Name : EC8094 &Satellite Communication Department: ECE Year/Sem: IV/8
CO410.1 Describe about satellite orbits
CO410.3 Describes the concepts satellite access.
CO410.4 Explains the applications of satellite.
CO410.2 Discuss the satellite segment and earth segment.
CO410.5 Apply the concept to satellite network
After successful completion of the course, the students should be able to
CO411
Subject Code & Name : EC8811 & Project work Department: ECE Year/Sem: IV/8
Course Outcome No. Course Outcome
CO411.1 Develop the ability to solve a specific problem right from its identification
CO411.2 Review on literatures and learn more about the problem and its solutions.
CO411.3 Develop the analytical skills, requirement analysis, design skills.
CO411.4 Learn the various system modules for implementing the project useful for the society; and testing with the experimental data.
CO411.5 Train the students in preparing project reports and to face reviews and viva voce examination.
JEPPIAAR INSTITUTE OF TECHNOLOGY
"Self Belief | Self Discipline | Self Respect"
REGULATION - 2017
DEPARTMENT OF ELECTRICAL & ELECTRONICS ENGIEEERING
I - VIII SEMESTERS CURRICULUM & SYLLABUS
SEMESTER 1
S.NO. COURSE
CODE COURSE TITLE L T P C
THEORY
1 HS8151 Communicative English 4 0 0 4
2 MA8151 Engineering Mathematics - I 4 0 0 4
3 PH8151 Engineering Physics 3 0 0 3
4 CY8151 Engineering Chemistry 3 0 0 3
5 GE8151 Problem Solving and Python Programming 3 0 0 3
6 GE8152 Engineering Graphics 2 0 4 4
PRACTICALS
7 GE8161 Problem Solving and Python Programming
Laboratory 0 0 4 2
8 BS8161 Physics and Chemistry Laboratory 0 0 4 2
SEMESTER 2
S.NO. COURSE
CODE COURSE TITLE L T P C
THEORY
1 HS8251 Technical English 4 0 0 4
2 MA8251 Engineering Mathematics - II 4 0 0 4
3 PH8253 Physics for Electronics Engineering 3 0 0 3
4 BE8252 Basic Civil and Mechanical Engineering 4 0 0 4
5 EE8251 Circuit Theory 2 2 0 3
6 GE8291 Environmental Science and Engineering 3 0 0 3
PRACTICALS
7 GE8261 Engineering Practices Laboratory 0 0 4 2
8 EE8261 Electric Circuits Laboratory 0 0 4 2
SEMESTER 3
S.NO. COURSE
CODE COURSE TITLE L T P C
THEORY
1 MA8353 Transforms and Partial Differential Equations 4 0 0 4
2 EE8351 Digital Logic Circuits 2 2 0 3
3 EE8391 Electromagnetic Theory 2 2 0 3
4 EE8301 Electrical Machines - I 2 2 0 3
5 EC8353 Electron Devices and Circuits 3 0 0 3
6 ME8792 Power Plant Engineering 3 0 0 3
PRACTICALS
7 EC8311 Electronics Laboratory 0 0 4 2
8 EE8311 Electrical Machines Laboratory - I 0 0 4 2
SEMESTER 4
S.NO. COURSE
CODE COURSE TITLE L T P C
THEORY
1 MA8491 Numerical Methods 4 0 0 4
2 EE8401 Electrical Machines - II 2 2 0 3
3 EE8402 Transmission and Distribution 3 0 0 3
4 EE8403 Measurements and Instrumentation 3 0 0 3
5 EE8451 Linear Integrated Circuits and Applications 3 0 0 3
6 IC8451 Control Systems 3 2 0 4
PRACTICALS
7 EE8411 Electrical Machines Laboratory - II 0 0 4 2
8 EE8461 Linear and Digital Integrated Circuits
Laboratory 0 0 4 2
9 EE8412 Technical Seminar 0 0 2 1
SEMESTER 5
S.NO. COURSE
CODE COURSE TITLE L T P C
THEORY
1 EE8501 Power System Analysis 3 0 0 3
2 EE8551 Microprocessors and Microcontrollers 3 0 0 3
3 EE8552 Power Electronics 3 0 0 3
4 EE8591 Digital Signal Processing 2 2 0 3
5 CS8392 Object Oriented Programming 3 0 0 3
6 OIT551 Data Base Management System 3 0 0 3
PRACTICALS
7 EE8511 Control and Instrumentation Laboratory 0 0 4 2
8 HS8581 Professional Communication 0 0 2 1
9 CS8383 Object Oriented Programming Laboratory 0 0 4 2
SEMESTER 6
S.NO. COURSE
CODE COURSE TITLE L T P C
THEORY
1 EE8601 Solid State Drives 3 0 0 3
2 EE8602 Protection and Switchgear 3 0 0 3
3 EE8691 Embedded Systems 3 0 0 3
4 EE8002 Design of Electrical Apparatus 3 0 0 3
5 EE8006 Power Quality 3 0 0 3
PRACTICALS
6 EE8661 Power Electronics and Drives Laboratory 0 0 4 2
7 EE8681 Microprocessors and Microcontrollers
Laboratory 0 0 4 2
8 EE8611 Mini Project 0 0 4 2
SEMESTER 7
S.NO. COURSE
CODE COURSE TITLE L T P C
THEORY
1 EE8701 High Voltage Engineering 3 0 0 3
2 EE8702 Power System Operation and Control 3 0 0 3
3 EE8703 Renewable Energy Systems 3 0 0 3
4 OCS752 Introduction To C Programming 3 0 0 3
5 MG8491 Operations Research 3 0 0 3
6 GE8077 Total Quality Management 3 0 0 3
PRACTICALS
7 EE8711 Power System Simulation Laboratory 0 0 4 2
8 EE8712 Renewable Energy Systems Laboratory 0 0 4 2
SEMESTER 8
S.NO COURSE CODE COURSE TITLE L T P C
THEORY
1 GE8076 Professional ethics in
Engineering
3
0
0
3
2
EE8017
High voltage DC
transmission
3
0
0
3
PRACTICALS
3
EE8811
Project work
0
0
20
10
JEPPIAAR INSTITUTE OF TECHNOLOGY "Self Belief | Self Discipline | Self Respect"
REGULATION – 2017
DEPARTMENT OF ELECTRICAL AND
ELECTRONICS ENGINEERING
SEMESTER 1
CO101
Subject Code & Name : HS8151 -Communicative English Department:
EEE Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO101.1 Enable the development of basic grammar to enhance
language for a better communication K3, A2
CO101.2 Strengthen general comprehending skills and present lucid
skills in free writing K2, A2
CO101.3 Foster an environment for reading and develop good
language skills. A2
CO101.4 Speak, read and write effectively for a variety of
professional and social settings A2
CO101.5
Listen, comprehend and respond to different spoken and
written discourses/excerpts in different accents and write
different genres of texts adopting various writing strategies.
A3
CO102
Subject Code & Name : MA8151 - Engineering Mathematics – I Department:
EEE Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO102.1 Use both the limit definition and rules of differentiation to
differentiate functions K2
CO102.2 Associate differentiation to solve maxima and minima
problems K2
CO102.3
Discuss integrals both by using Riemann sums and by
using the Fundamental Theorem of Calculus Also
Evaluate integrals using techniques of integration, such
as substitution, partial fractions and integration by parts
K2
CO102.4
Associate integration to compute multiple integrals, area,
volume, integrals in polar coordinates, in addition to change
of order and change of variables
K2
CO102.5 Explain various techniques in solving differential equations K2
CO103
Subject Code & Name :PH8151 - Engineering Physics Department:
EEE Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO103.1 Explain the basics of properties of matter and its
applications. K2
CO103.2 Identify the concepts of waves and optical devices and their
applications in fibre optics K2
CO103.3
Demonstrate the concepts of thermal properties of materials
and their applications in expansion joints and heat
exchangers
K2
CO103.4 Describe advanced physics concepts of quantum theory and
its applications in tunneling microscopes K2
CO103.5 Summarize the basics of crystals and their structures and
different crystal growth techniques K2
CO104
Subject Code & Name :CY8151-Engineering Chemistry Department
: EEE Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitiv
e Level
CO104.1 Predict the type of troubles present in boilers and the
methods used to treat hard water. K2
CO104.2 Identify the factors affecting the rate of adsorption and
catalytic activity. K2
CO104.3 Interpret the Concept of phase rule, its various phase
diagrams and predict the low melting alloys K2
CO104.4
Enumerate various solid, liquid and gaseous fuels,
manufacturing methods and basic reactions involved in
combustion reactions
K2
CO104.5 Classify the types of batteries, their reactions and the
significance of storage renewable energy resources. K2
CO105
Subject Code & Name : GE8151-problem solving and python
programming
Department
: EEE Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitiv
e Level
CO105.1 Discuss the logical solutions through Flowcharts,
Algorithms and Pseudo code. K2
CO105.2 Explain the syntax for python programming constructs. K2
CO105.3 Compute the flow of the program to obtain the
programmatic solution. K2
CO105.4 Examine the programs with sub problems using ‘Python’
language K3
CO105.5 Compute the compound data using Python lists, tuples, and
dictionaries K2
CO105.6 Apply python programs to read and write data from/to files K3
CO106
Subject Code & Name : GE8152 - Engineering Graphics Department
: EEE Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitiv
e Level
CO106.1 Discuss about conics and orthographic views of engineering
components. K2
CO106.2 Draw the projection of points, lines and planes. K1
CO106.3 Classify solids and projection of solids at different positions. K3
CO106.4 Show sectioned view of solids and development of surface. K3
CO106.5 Draw isometric projection and perspective views of an
object/solid. K1
CO106.6 Apply the concept of drawing in practical applications. K3
CO107
Subject Code & Name : GE8161- Problem solving and python
programming laboratory
Department
: EEE Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitiv
e Level
CO107.1 Write, test, and debug simple Python programs. K1
CO107.2 Apply the concept of conditionals and loops in Python
programs. K3
CO107.3 Develop the Python programs step-wise by defining
functions and calling them. K3
CO107.4 Use Python lists, tuples, dictionaries for representing
compound data. K3
CO107.5 Read and write data from/to files in Python. K1
CO107.6 Apply the concept of Pygame. K3
CO107.7 Exhibit ethical principles in engineering practices. A3
CO107.8 Perform task as an individual and / or team member to
manage the task in time. A3
CO107.9 Express the Engineering activities with effective
presentation and report. A3
CO107.10 Interpret the findings with appropriate technological /
research citation. A2
CO108
Subject Code & Name :BS8161 -Physics and chemistry laboratory Department
: EEE Year/Sem: I/I
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitiv
e Level
CO108.1 Determine the Modulus of elasticity of materials and
Coefficient of Viscosity of liquids. K2
CO108.2 Determine the Thermal Conductivity of bad conductor using
Lee’s disc method K2
CO108.3 Calculate the Compressibility of liquids and velocity of
ultrasonic waves in liquids. K2
CO108.4
Measure the wavelength of prominent spectral lines of
Mercury Spectrum and particle size of powder using
diffraction phenomenon and thickness of thin materials
using interference phenomenon.
K2
CO108.5 Determine the band gap energy of a semiconductor. K2
CO108.6 Calculate water quality parameters such as hardness,
alkalinity of the given water sample. K2
CO108.7 Estimate the amount of the given acids using
conductometric titrations. K2
CO108.8 Estimate the amount of the given acids using pH titrations. K2
CO108.9 Determine the amount of iron content in the given substance
using potentiometric titration. K2
CO108.10 Determine the amount of chloride content in the given water
sample. K2
CO108.11 Exhibit ethical principles in engineering practices. A3
CO108.12 Perform task as an individual and / or team member to
manage the task in time. A3
CO108.13 Express the Engineering activities with effective
presentation and report. A3
CO108.14 Interpret the findings with appropriate technological /
research citation. A2
SEMESTER-2
CO109
Subject Code & Name : HS8251 -
Technical English Department: EEE Year/Sem: I/2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO109.1 Reading technical texts and writing by the Pupils on
area-specific texts effectively and effortlessly K2, A2
CO109.2 Expand comprehensive skills to listen a lecture and talks
in their area of specialization successfully. K3, A2
CO109.3 Develop Formal and informal communication is easy to
speak fluently and impeccably K3, A2
CO109.4 Write job application and resume, Bio-data and Profile
with cover letter A2
CO109.5 Understand technical article, writing reports and minutes
of meeting. A2
CO110
Subject Code & Name : MA8251 -
Engineering Mathematics – II Department: EEE Year/Sem: I/2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO110.1 Compute the Diagonalize symmetric matrices and
similar matrices using Eigen values and Eigen vectors. K2
CO110.2
Explain gradients, potential functions, and directional
derivatives of functions of
several variables. Also Compute line, surface and
volume integral using Gauss divergence, Green’s and
stoke’s theorem.
K2
CO110.3 Discuss analytic functions in heat and fluid flow. K2
CO110.4 Extend the concept of contour integrals in evaluating
Real integrals. K2
CO110.5
Discuss Laplace Transform methods to solve initial
value problems for constant
coefficient linear ODEs.
K2
CO111
Subject Code & Name : PH8253-
Physics for electronics Engineering Department: EEE Year/Sem: I/2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO111.1 Explain the classical and quantum electron theories, and
energy band structures K2
CO111.2 Describe the basics of semiconductor physics and its
applications in various devices K2
CO111.3 Explain the properties of magnetic and dielectric
properties of materials K2
CO111.4 Classify the functioning of optical materials for
optoelectronics K2
CO111.5 Describe the basics of quantum structures and their
applications in spintronics and carbon electronics K2
CO112
Subject Code & Name : BE8252 &
Basic Civil and Mechanical Engineering Department: EEE Year/Sem: I/2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO112.1 Explain the knowledge on civil and Mechanical
Engineering K2
CO112.2 Familarization of the materails and measurements used
in civil engineering K3
CO112.3 Demonstrate the exposure on the fundamental elements
of civil engineering structures. K2
CO112.4
Describe theTo enable the students to distinguish the
components and working principle of power
plant units, IC engines.
K3
CO112.5 Explain the working principle of Refrigation & Air
Conditioning system. K2
CO & PO and PSO Mapping
CO113
Subject Code & Name : EE8251
Circuit Theory Department: EEE Year/Sem: I/2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO113.1 Develop the capacity to analyze electrical circuits using
nodal analysis & network terminology. K3
CO113.2 Apply network theorem concepts to solve AC and DC
circuits . K3
CO113.3 Calculate the response of the series and parallel
resonance circuits. K2
CO113.4 Obtain the transient responds of the circuit K3
CO113.5 Understand the concepts of two port network in various
parameters. K3
CO114
Subject Code & Name : GE8291 &
Environmental Science and
Engineering
Department: EEE Year/Sem: I/2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO114.1 Study and Analyze the nature and facts about
environment K2
CO114.2
Characterize the implemention of scientific,
technological, economic and political solutions to
environmental problems.
K2
CO114.3
Illustrate the importance of environment by assessing
its impact on the human world;
envision the surrounding environment, its functions
and its value.
K2
CO114.4
Study and analyze the dynamic processes and
understand the features of the earth‟s interior and
surface.
K2
CO114.5
Discuss the integrated themes and biodiversity, natural
resources, pollution control and waste
management.
K2
CO115
Subject Code & Name : GE8261
Engineering Practices laboratory Department: EEE Year/Sem: I/2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO115.1 Identify Tools and Techniques used for Sheet Metal Fabrication K1
CO115.2 Use welding equipment to join the structures K3
CO115.3 Demonstrate Plumbing requirements of domestic buildings. K3
CO115.4 Apply the skills of basic electrical engineering for house wiring
practice K3
CO115.5 Measure various electrical quantities K2
CO115.6 Explain the working of electronic components and its utilization K3
CO115.7 Apply electronic principles to develop circuits for primitive
application K3
CO115.8 Exhibit ethical principles in engineering practices A3
CO115.9 Perform task as an individual and / or team member to manage the
task in time A3
CO115.10 Express the Engineering activities with effective presentation and
report. A3
CO115.11 Interpret the findings with appropriate technological / research
citation. A2
CO116
Subject Code & Name : EE8261
Electric Circuits Laboratory Department: EEE Year/Sem: I/2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome
Highest
Cognitive
Level
CO116.1 Construct circuits by applying the theoretical knowledge gained in
electron devices K2
CO116.2 Analyse the electrical characteristics of unipolar and bipolar devices
with the constructed circuits K3
CO116.3 Observe and analyse thethyristor characteristics K3
CO116.4 Observe and analyse the operation of positive, negative and
combinational clippers K3
CO116.5 Observe and analyse the operation of half wave rectifier, full wave
rectifier with and without capacitive filters K3
CO116.6 Understand the measurement of frequency using CRO K2
CO116.7 Verify the outcomes of KCL, KVL, Thevenin, Norton &
Superposition theorems. K2
CO116.8 Exhibit ethical principles in engineering practices A3
CO116.9 Perform task as an individual and / or team member to manage the
task in time A3
CO116.10 Express the Engineering activities with effective presentation and
report. A3
CO116.11 Interpret the findings with appropriate technological / research
citation. A2
Subject Code & Name : MA8353/Transforms and Partial differential Equations
CO206.3 Explain the layout and various types of reactors in Nuclear Power Plant
CO206.4 Illustrate the opertion of various types of renewable power plant
CO206.5 Summarize the tariffs and performnace parameter of the power plant
Course Outcome No. Course Outcome
CO206.1 Explain the differet blocks in coal based power plant
CO206.2 Summarize the working of diesel, gas turbine and combined cycle power plant
CO204.5 Outline the operation of DC Motors
Course Outcome No. Course Outcome
CO204.1 Summarize the Magnetic materials used in Magnetic Circuits
CO204.2 Demonstarte the operation of Transformer
CO205.3 Analysis of BJT in various modes of operation in gain and frequency response and small signal amplifier circuits
Course Outcome No. Course Outcome
CO205.1 Explain the Structure of basic electronic devices and its characteristics
CO205.2 Construction and working of various active and passive devices like MOSFET ,UJT ,BJT,JFET
CO204.4 Outline the operation of DC Generators
After successful completion of the course, the students should be able to
CO204.3 Explain the Electromechnaical Energy Conversion
Highest Cognitive Level
K2
K2
K2
Course Outcome No. Course Outcome
C0203.5 Outline the basic concepts of electromagnetic waves, parameters and Electromagnetic fields and design Electrical equipment and systems.
C0203.3
C0203.4
Subject Code & Name : EE8301 /Electrical Machines - I Department: EEE Year/Sem: II/III
C0203.1
C0203.2
Explain the concepts of Faradays law , Induced emf and Maxwell's equations to analyze the electrodynamics fields.
Illustrate the concepts of magneto statics, magnetic flux density, scalar and vector potential and its applications
Explain the basic mathematical concepts related to electromagnetic fields & Electrostatic fields
Interpret the concepts of electrical potential, energy density and their applications
K2
K2
K2
K2
Highest Cognitive Level
Year/Sem: II/III
After successful completion of the course, the students should be able to
C201.3 Solve the physical significance of Fourier series techniques in solving one and two dimensional heat flow problems and one dimensional wave equations
C201.4 Formulate the mathematical principles on transforms and partial differential equations would provide them the ability to formulate and solve some of the physical problems of engineering
C201.5 Construct an effective mathematical tools for the solutions of partial differential equations by using Z transform techniques for discrete time systems
Course Outcome No. Course Outcome
C201.1 Represent the physical processes as partial differential equations and solve both homogenous and non homogeneous equations.
C201.2 Solve differential equations using Fourier series analysis which plays a vital role in engineering applications
Highest Cognitive Level
Department: EEE
K3
K2
K3
K2
K2
SEMESTER 3
K2
K3
K3
K3
K3
K2
Subject Code & Name : EE8391 &Electromagnetic Theory Department: EEE Year/Sem: II/III
After successful completion of the course, the students should be able to
Highest Cognitive Level
After successful completion of the course, the students should be able to
Subject Code & Name : EE8351-Digital Logic Circuits Departemt: EEE Year /Semester : II/III
CO202.3 Design a Synchronous Sequential Circuits
CO202.4 Analyze and design the asynchronous sequential circuit and PLDs
CO202.5 Develop the VHDL coding for Combinational logic and Sequential circuits and digital Simulation for development of application oriented logic circuits
Course Outcome No. Course Outcome
CO202.1 Convert various number systems; simplify the logical expressions using boolean functions and compare Digital logic families
CO202.2 Design of combinational logic circuits, multiplexer, demultiplexer and code converters.
K2
K2
Highest Cognitive Level
K2
K2
K2
Subject Code & Name : EC8353 &Electronic Devices and Circuits Department: EEE Year/Sem: II/III
After successful completion of the course, the students should be able to
K2
K2
Highest Cognitive Level
K2
K2
K2
K2
K2
Subject Code & Name :ME8792 /Power Plant Engineering Department: EEE Year/Sem: II/III
After successful completion of the course, the students should be able to
CO205.4 Demonstrate the different stages of amplifier , differential amplifier cascade amplifier,power amplifier
CO205.5 Explain the functions of various oscillator circuits and positive and negative feedback circuits
Interpret the findings with appropriate technological / research citation.
A3
A3
A3
A2
A2Interpret the findings with appropriate technological / research citation.CO207.9
Subject Code & Name : EE8311 & Electrical Machines Laboratory - I Department: EEE Year/Sem: II/III
After successful completion of the course, the students should be able to
Highest Cognitive Level
K4
K4
CO208.3 sketch the load characteristics of single phase and three phase transformer
CO208.4 Develop the equivalent circuit of single phase transformer
CO208.5 Explain the concepts of starters and connection of three phase transformer
K3
K5
K2
CO208.6
CO208.7
CO208.8
CO208.9
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Course Outcome No. Course Outcome
CO208.1 Anayse the characterstics of DC generator and DC motor on No load and loaded conditons
CO208.2 Examine the various losses and efficiency of DC machines and transformer
CO207.3 Compare the ripple factor of the diode rectifiers with and without filters
CO207.4
CO207.8
Identify the performance of Multivibrators and differential amplifier using FET
Express the Engineering activities with effective presentation and report.
Course Outcome No. Course Outcome
CO207.1 Illustrate the operation of Semiconductor devices with their charcateristics for various applications
CO207.2 Construct the amplifier and Oscillator Ciruits for any frequency using BJT and determine the output responses
A3
Subject Code & Name : EC8311 &Electronics Laboratory Department: EEE Year/Sem: II/III
After successful completion of the course, the students should be able to
Highest Cognitive Level
K3
CO207.5 K3Build passive filters for particular cutoff frequencies
A3
A3Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
CO207.6
CO207.7
K2
K3
K2
Subject Code & Name : MA8491/Numerical Methods
After successful completion of the course, the students should be able to
A3
A2
A2
C216.6 Exhibit ethical principles in engineering practices A3
C216.7
C216.8
C216.9
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
A3
A3
A2
C216.5Design and implement counters using specific counter IC K2
CO215.5 Determine the efficiency and Analyze the losses of Single Phase Induction Motor K2
CO215.2 Analyze the Characteristics of synchronous motor using V and inverted V curves
C216.3Design and implement 4 bit Shift Registers K2
Course Outcome No. Course Outcome
C216.1Implement Boolean function using logic gates
C216.2Implement Code conversion using logic gates
Course Outcome No.
CO215.6
CO215.1Pre-determine the regulation of both salient and non-salient pole Alternators by EMF, MMF and ZPF Methods
K2
K2
CO215.3Determine the efficiency and equivalent circuit parameter of Single and three phase induction motor and Analyze the losses of Induction Motor
K2
CO215.4 Analyze the response of speed variation in slip-ring Induction motor for change in rotor resistanceK2
A3
A3
A3
CO215.7
CO215.8
CO215.9
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
Course Outcome No.
Subject Code & Name : EE8411 Electrical Machines Laboratory - II Department: EEE Year/Sem: II/IV
After successful completion of the course, the students should be able to
Highest Cognitive LevelCourse Outcome No. Course Outcome
CO214.5 Explain the state space variables in effect of state feedback of system K2
Course Outcome No. Course Outcome
CO214.1 Model the various systems by mathematical equations and find transfer function
Course Outcome No.
Subject Code & Name :IC8451 /Control Systems Department: EEE Year/Sem: II/IV
After successful completion of the course, the students should be able to
Highest Cognitive Level
K3
CO211.2 Summarize the concepts of ABCD parameters and regulation, efficiency of transmission line. K3
Course Outcome No.
Subject Code & Name : EE8402/Transmission and Distribution Department: EEE Year/Sem: II/IV
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest Cognitive Level
CO211.1 Discuss the various parameters of transmission line and structure of power system and calculation of capacitance and Inductance values K2
SEMESTER 4
Department: EEE
Highest Cognitive Level
K2
K2
K2
K2
C209.5 Solve the partial and ordinary differential equations with initial and boundary conditions by using certain techniques with engineering applications.
Course Outcome No. Course Outcome
C209.1 Explain the basic concepts and techniques of solving algebraic and transcendental equations.
C209.2 Infer the numerical techniques of interpolation and error approximations in various intervals in real life situations.
K2
Course Outcome No.
Year/Sem: II/IV
C209.3 Extend the numerical techniques of differentiation and integration for engineering problems.
C209.4 Illustrate the knowledge of various techniques and methods for solving first and second order ordinary differential equations.
CO210.2 Illustrate the principle of operation and performnace of Synchronous motorK2
CO210.3 Outline the construction and working principle of Three-phase Induction Motor K2
CO210.4
Course Outcome No.
Subject Code & Name : EE8451 /Linear Integrated Circuits and Applications Department: EEE Year/Sem: II/IV
K2
Explain the starters and speed control method of three phase Induction motor.
CO210.5 Demostrate the construction and working principle of Special Machines and single-phase induction motor.
CO211.3 Discuss the various types of insulators, its performance and calculation sag in Overhead transmission system. K2
CO211.4 Explain the different construction of cables and grading of cables using in transmission system. K2
CO211.5 Discuss the concepts of distribution system and layout of substation ,concepts of HVDC ,FACTS .. K2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest Cognitive Level
Course Outcome No.
Subject Code & Name : EE8403/ MEASUREMENT & INSTRUMENTATION Department: EEE
Subject Code & Name : EE8401-Electrical Machines - II Departemt: EEE Year /Semester : II/IV
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest Cognitive Level
CO210.1 Outline the construction and working principle of Synchronous Generator and MMF curves and armature windings. K2
K2
Year/Sem: II/IV
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest Cognitive Level
C0212.1 Summarize the characgeristics and errors of the instruments and the need for calibration K2
C0212.2 Explain the various operation of AC and DC electrical and electronic instruments K2
C0212.3 Describe the various measurement devices in AC as well as in DC K2
C0212.4 Expain the different storage and display devices used in electrical measurements K2
C0212.5 Discuss the concepts and operational features of different display Devices and Data Acquisition System. K2
C213.1 Infer the process in IC fabrication procedure K2
C213.2 Analyze the characteristics of op-amp K2
C213.3 Illustrate the importance of signal analysis using op-amp based circuits K2
C213.4 Explain the functional blocks and the applications of special ICs like timers, PLL circuits K2
C213.5 Explain the functional blocks of application Ics like regulator, SMPS, Function generator K2
CO214.2 Explain the basic components of feedback control systems ans summarize the variuos errors K2
CO214.3 Identify the performnace parameters of the system through the time domain and frequency domain approach K3
CO214.4 Infer the stability of the system in time domain and frequency domain & applu different compensation techniques to improve the stability of the system K3
Design and implement applications of Op-Amp K2
Subject Code & Name : EE8461 Linear and Digital Integrated Circuits Laboratory Department: EEE Year/Sem: II/IV
After successful completion of the course, the students should be able to
Highest Cognitive Level
K2
K2
C216.4
Course Outcome No.
Subject Code & Name : EE8412/Technical Seminar Department: EEE Year/Sem: II/IV
Course Outcome No. Course Outcome Highest Cognitive Level
C217.1 Function effectively as an individual and Make effective presentation on Engineering/ technology K2
After successful completion of the course, the students should be able to
K2
K2
C217.2 Review, prepare and present technological developments in the field of electrical and electronics engineering.
C217.3 Design documentation and write effective reports on seminar topicsC217.4
CO217.5
CO217.6
CO217.7
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
A3
A3
Subject Code & Name : EE8501/Power System Analysis
CO308.1
A3
A2
CO308.5
CO308.6
CO308.7
CO308.8
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
A3
A3
A3
A2
Course Outcome No.
Subject Code & Name : HS8581/Professional Communication
Ability to make effective presentations
Department: EEE Year/Sem: III/V
After successful completion of the course, the students should be able to
Highest CognitVe Level
K2
Course Outcome No. Course Outcome
Course Outcome No. Course Outcome
CO307.1Analyze the characteristics of P, PI and PID controllers experimentally and analyze the stability of the control system using MATLAB
After successful completion of the course, the students should be able to
CO307.2Compute the transfer function of a Field controlled DC motor experimentally and analyze the response of Lag, Lead and Lag-Lead Compensators
K2
CO307.3
Highest CognitVe Level
K2
Analyze the transient response of Position Control system experimentally and analyze the Characteristics of Synchro-Transmitter- Receiver and to Use MATLA K2
CO305.4 Illustrate a java application with threads and generics classes K3
CO305.5 Demonstrate and build simple Graphical User Interfaces
CO306.01 Implement conceptual model of a given problem and its mapping to relational model.
CO306.02 Summarize DDL AND DML statements of relational database. K2
CO306.03 Execute programs with database connectivity. K3
CO306.04 Design banking database system following normalization procedures. K3
K3
CO305.1 Explain the Object Oriented Programming concepts and basic features of Java K2
CO305.2 Interpret the OOPS principles with packages, inheritance and interfaces K2
CO305.3 Interpret exceptions and use I/O streams K2
CO304.1 Classify the different types of Signals and Systems K2
CO304.2 Explain the LTI systems with different inputs using Z transform K2
CO304.3 Apply DFT & FFT for the analysis of digital signals K3
SEMESTER 5
Department: EEE
C302.2 Classify the instructions with the help of Addressing modes of 8085 with necessary programs
Subject Code & Name : EE8551-Microprocessors and Microcontrollers Departemt: EEE Year /Semester : III/V
Course Outcome No. Course Outcome Highest CognitVe Level
C302.1 Describe the basic Architecture of 8085 Microprocessor and working of all blocks of the processor, IO and memory interfacings with necessary timing diagram K2
After successful completion of the course, the students should be able to
Course Outcome No.
Year/Sem: III/V
After successful completion of the course, the students should be able to
K2
K3
K3
Course Outcome No. Course Outcome
K2
Highest CognitVe Level
Discover the transient stability of power system using equal area criterion and to apply modified Euler’s methods to solve the swing equation
Construct the power system network under unsymmetrical fault condition using symmetrical components
Identify the power system network under symmetrical fault condition using Thevenin’s theorem and bus impedance matrix
Relate the per unit values and to formulate bus impedance,admittance matrices for the given power system network.
Demonstrate load flow techniques using Newton – Raphson and Gauss Seidel methods for the power system networks
CO301.5
CO301.3
CO301.4
CO301.1
CO301.2
K3
Course Outcome No.
Subject Code & Name : EE8552/Power Electronics Department: EEE Year/Sem: III/V
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest CognitVe Level
CO303.1 Describe the types of power semiconductor devices and their switching characteristics K2
CO303.2 Explain the opeartion ,characteristics and performance parameters of controlled rectifiers K2
CO303.3 Discover the operation,switching tecgniques and basic topologies of DC-DC switching regulators K2
K2
C302.5
C302.3
C302.4
Apply the knowledge of programming concepts of 8051 Microcontroller for various applications like keyboard display interface, servo motor etc.,
Explain the basic Architecture of 8051 Microcontroller with working of various blocks of the controller like Interrupts, Timer, IO ports etc. with necessary timin
Illustrate how the different peripherals are interfaced with Microprocessor & Microcontroller
K2
K2
K3
CO303.4 Explain the different modulation techniquies of pulse with modulated inverters and to understand harmonic reduction methods K2
CO303.5 Demostrate the opeartion of AC voltage controller and various configurations ans its applications K2
Course Outcome No. Course Outcome Highest CognitVe Level
Course Outcome No.
Subject Code & Name : EE8591/Digital Signal Processing Department: EEE Year/Sem: III/V
After successful completion of the course, the students should be able to
Develop IIR filters from analog filters and build FIR filters using windows and sampling technique K3
CO304.5 Classify the DSP Processor and its architecture for different applications K2
Department: EEE Year/Sem: III/V
Course Outcome No. Course Outcome Highest CognitVe Level
After successful completion of the course, the students should be able to
CO304.4
Course Outcome No.
Subject Code & Name : CS8392 /Object Oriented Programming
Course Outcome No.
Subject Code & Name : EE8511/Control and Instrumentation Laboratory Department: EEE Year/Sem: III/V
Course Outcome No. Course Outcome
Subject Code & Name :OIT551 /Data Base Management System Department: EEE Year/Sem: III/V
After successful completion of the course, the students should be able to
K2
Highest CognitVe Level
CO307.4Ability to analyze the basic concepts of bridge networks and to analyze the Dynamics of Sensors/Transducers
K2
CO307.5Measure the Power and Energy experimentally and analyze signal conditioning circuits and to Use MATLAB for Process Simulation
K2
CO307.6
CO307.7
CO307.8
CO307.9
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
A3
A3
Course Outcome No. Course Outcome Highest CognitVe Level
CO309.2 Develop and implement Java programs with arraylist, exception handling and multithreading K2
CO309.1 Develop and implement Java programs for simple applications that make use of classes, packages and interfaces K2
After successful completion of the course, the students should be able to
CO308.2 Ability to Participate confidently in Group Discussions.
CO308.3 Attend job interviews and be successful in them
CO308.4 Develop adequate Soft Skills required for the workplace
Course Outcome No.Subject Code & Name : CS8383/Object Oriented Programming Laboratory Department: EEE Year/Sem: III/V
K2
K2
K2
K2CO309.3 Design applications using file processing, generic programming and event handling
CO309.4
CO309.5
CO309.6
CO309.7
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
A3
A3
A2
A3
Subject Code & Name : EE8601/Solid State Drives
CO316.6
CO316.7
CO316.8
CO316.9
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
A3
A3
A3
A2
CO315.7
CO315.8
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
A3
A3
A3
A2
Design a program for arithmetic operation, Ascending/ Descending order, finding Maximum/Minimum numbers, rotate instruction and code conversions and execute using 8085 processor
CO316.2Identify and convert Analog to Digital , Digital to Analog numbers and implement the traffic light controller with 8085
Analyze a program using read key to interface with display units and demonstrate conditional jumps ,loops and calling subroutines with 8051 Microcontroller .
Create program using I/O port ,8051 timer , A/D & D/A interface with DC & AC motors and develop a program for hardware application using embedded processors
Course Outcome No.Subject Code & Name : EE8611/Mini Project
Course Outcome No.
CO314.2Ability to acquire knowledge on the various causes of voltage sag swell and its mitigation techniquies
K2
CO314.3
CO315.2Analyze the characteristics of MOSFET and IGBT
CO315.3Design a single phase AC to DC half and fully controlled converter
Course Outcome No. Course Outcome
CO315.1Draw the VI characteristics of SCR and TRIAC
Subject Code & Name : EE8002/DESIGN OF ELECTRICAL APPARATUS Department: EEE Year/Sem: III/VI
After successful completion of the course, the students should be able to
CO311.3 Infer the need and procedure of apparatus protection K2
CO311.4 Demonstrate about static and numerical relays
CO311.5 Illustarte the problems associated with circuit interruption
Course Outcome No.
Subject Code & Name : EE8691/Embedded Systems
K2
K2
Department: EEE Year/Sem: III/VI
After successful completion of the course, the students should be able to
Course Outcome No.
CO311.2 Summarize the operation of various protection relays in the power systems K2
Subject Code & Name : EE8602-Protection and Switchgear Departemt: EEE Year /Semester : III/VI
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest CognitVe Level
CO311.1 Explain the various faults and protective schemes in the Power systems K2
CO310.5 Design a current and speed controller and develop the transfer function for DC motor, load and converter, closed loop control with current and speed feed
Course Outcome No. Course Outcome
CO310.1 Classify the various types of drives and load torque characteristics and Apply the multi quadrant dynamics in hoist load system.
CO310.2 Illustrate the operation of steady state analysis of single phase and three phase fully controlled converter and Chopper fed separately excited dc motor drives
K2
Course Outcome No.
Year/Sem: III/VI
After successful completion of the course, the students should be able to
CO310.3 Explain the operation and characteristics of various methods of solid state speed control of induction motor.
CO310.4 Describe the operation of various modes of V/f control of synchronous motor drives and different types of permanent magnet synchronous motor drives.
SEMESTER 6
Department: EEE
Highest CognitVe Level
K2
K2
K2
K2
Course Outcome Highest CognitVe Level
CO312.1 Outline the basic build process of embedded systems, structural units in embedded processor and selection of processor and memory devices depending upon the applications.
K2
CO312.2 Explain the different types of I/O device ports, buses and different interfaces for data transfer in embedded networking. K2
CO312.3 Demonstrate the different techniques like state machine model, sequential program model and concurrent model in Embedded Product Development Life Cycle (EDLC)
K2
CO312.4 Explain the basic concept of Real Time Operating Systems and scheduling of different task and compare the features of different types of Real Time Operating Systems
K2
CO312.5 Summarize the concepts of Embeeded systems in real time aplications K2
Course Outcome No. Course Outcome Highest CognitVe Level
C0313.1 Discuss Magnetic circuit parameters and thermal rating of various types of electrical machines. K2
C0313.2 Summerize the various designs in Core, yoke, windings and cooling systems of transformers. K2
C0313.3 Analyze the Armature and field systems for D.C. machines. K3
C0313.4 Interpret the design of stator and rotor of induction machines K3
C0313.5 Explain the concerned design of synchronous machines and Turbo alternators K3
Course Outcome No.
Subject Code & Name :EE8006/Power Quality Department: EEE Year/Sem: III/VI
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest CognitVe Level
CO314.1Analyze the various sources, causes and effects of power quality issues in electrical power system and their measures..
K2
Explain the concepts of voltage, current distortions and causes ,location of harmonicsK2
CO314.4Ability to understand the design of passive filters on compensation techniques.
K3
CO314.5Discuss the concepts of power quality monitoring and FACTS devices.
K2
Course Outcome No.
Subject Code & Name : EE8661/Power Electronics and Drives Laboratory Department: EEE Year/Sem: III/VI
After successful completion of the course, the students should be able to
Highest CognitVe Level
K1
K4
K3
K4
K2
Course Outcome No.
Subject Code & Name : EE8681/Microprocessors and Microcontrollers Laboratory Department: EEE Year/Sem: III/VI
Course Outcome No. Course Outcome Highest CognitVe Level
CO315.4Analyze the output response of step down chopper and step up MOSFET and draw the output waveforms of single phase IGBT based PWM inverter.
After successful completion of the course, the students should be able to
CO315.4Observe the response of IGBT based three-phase PWM inverter and Resonant dc-to-dc converter
CO315.5
CO315.6
Department: EEE Year/Sem: III/VI After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest CognitVe Level
K2
CO316.3
CO316.4
CO316.5
Design a code to display the given words using keyboard display controller for serial communication and programming practices with simulator/Emulator /open source
K2
K2
K2
K2
CO316.1
C0317.1 Evaluate the final year project work and find solution by formulating proper methodology. K4
Subject Code & Name :EE8701/High Voltage Engineering
Subject Code & Name :EE8712/Renewable Energy Systems Laboratory Department: EEE Year/Sem: IV/VIICourse Outcome No.
Subject Code & Name : EE8703/Renewable Energy Systems Department: EEE Year/Sem: IV/VII
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest CognitVe Level
C0403.1 Summerize the types and importance of development in Rewable energy sources and technologies K2
Course Outcome No.
CO406.1 Discuss the quality concepts and philosophies of TQM
Course Outcome No.
Subject Code & Name : GE8077/Total Quality Management
C0408.2
C0408.3
Examine Performance Assessment of 100W Fuel Cell and basics of Intelligent Controllers for Hybrid systems.
Inspect the Performance assessment of Standalone and Grid connected solar energy system with simulation of wind energy generator
Examine the Performance assessment of micro Wind Energy Generator and simulate the Hybrid (solar- wind) power system
Course Outcome No.
CO406.4 Identify the TQM tools as a means to improve quality. K2
CO406.5 Study the quality systems and procedures adopted. K2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest CognitVe Level
CO402.1 Describe the various load characteristics with load curve and load duration curve K2
CO402.2 Constract the static and dynamic modeling of single area and two area power systems for frequency control K2
SEMESTER 7
Department: EEE
Highest CognitVe Level
K2C0401.5 Explain the different high voltage testing methods for different power apparatus and Insulation coordination
C0401.1
C0401.2
Interpret the measurement of high voltage DC , AC using digital techniques and the conventional methods.
Explain the circuits in the generation of high DC , AC , impulse currents and voltages with control of impulse generators
K2C0401.4
Course Outcome No.
Year/Sem: IV/VII
After successful completion of the course, the students should be able to
K2
K2
K2C0401.3
Course Outcome No. Course Outcome
Summerize the various types of overvoltages in the power system and protection methods
Discuss the nature of Breakdown mechanism in solid, liquid and gaseous dielectrics and maintainance of oil quality.
Subject Code & Name : EE8702-Power System Operation and Control Departemt: EEE Year /Semester : IV/VII
Explain the modeling of reactive power-voltage interaction and the control actions K2
K2
K2CO402.4 Solve economic dispatch problems and unit commitments problems in power systems
CO402.5 Explain the need of computer controls to energy management using SCADA
CO403.3
Describe the concepts and Grid integration issues cult with the Wind Energy systems K2
C0403.3 Explain the perception in the relation between the Photvoltaic and thermal energy allied from Solar Energy sourcesK2
C0403.4 Discuss the foundation approaches towards the biomass renewable energy K2
C0403.5 Predict the approches against emerging technologies like fuel cells, hydrogen energy small hydro power plants and Hybrid systemsK2
C0403.2
Course Outcome No.
Subject Code & Name : OCS752/Introduction To C Programming Department: EEE Year/Sem: III/VII
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest CognitVe Level
CO404.1 Implement simplement applications using basic constructsK2
CO404.2 Summarize the initilization and working of arrays and strings in C programming.K2
CO404.3 Develop applications using arrays and stringsK3
CO404.4 Develop applications using functions and structuresK3
Course Outcome No.
Subject Code & Name: MG8491/Operations Research Department: EEE Year/Sem: IV/VII
Course Outcome No. Course Outcome Highest CognitVe Level
CO405.1 Understand the optimization techniques for use engineering and Business problems.And Solve the Linear Programming problems by using certain techniques K2
After successful completion of the course, the students should be able to
CO405.2 Apply the transportation and Network Techniques for Real life problems K3
CO405.3 Appreciate the numerical techniques of Inventory models K3
CO405.4 Understand the knowledge of various Queuing models K2
CO405.5 Understand the concepts of various Decision models K2
Department: EEE Year/Sem: IV/VII
After successful completion of the course, the students should be able to
Highest CognitVe Level
K2
CO406.2 Apply TQM principles and concepts of continuous improvement.K2
CO406.3 Analyze the quality tools, management tools and statistical fundamentals to improve quality. K2
Course Outcome
Subject Code & Name :EE8711/Power System Simulation Laboratory Department: EEE Year/Sem: IV/VII
After successful completion of the course, the students should be able to
K5
CO407.5Develop the coding to Analyse the economic dispatch in power system problems
K5
K5CO407.3Design the simulation model to Analyse the power system under symmetrical and unsymmetrical fault conditions
CO407.1
CO407.2Develop the coding to Analyse the load flow problems using Newton Raphson and Gauss seidal methods for the power system and interpret the results.
Highest CognitVe LevelCourse Outcome No. Course Outcome
K5
K5
Develop the coding to analyze the performance of transmission line in electrical power system and to formulate bus impedance, admittance matrix for the given pow
CO407.4 Design and analyse the transient stability of single-machine ,multi machine power system to Analyse the simulation model of electromagnetic transients in power s
CO407.6
CO407.7
CO407.8
CO407.9
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
A3
A3
A3
A2
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest CognitVe Level
K4
C0408.4 Analyze the characteristics of Micro Hydel Power using simulationK4
C0408.6
C0408.7
C0408.8
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
A3
A3
A3
C0408.1 Analyze the characteristics and stability of Solar PV Energy System experimentally and using Simulation
C0408.5
K4
K2
K4
C0408.9 Interpret the findings with appropriate technological / research citation. A2
Subject Code & Name :GE6076/Professional ethics in engineering
Exhibit ethical principles in engineering practices
Perform task as an individual and / or team member to manage the task in time
Express the Engineering activities with effective presentation and report.
Interpret the findings with appropriate technological / research citation.
A3
A3
A3
A2
C0411.2
C0411.3
C0411.4
C0411.5
Course Outcome No.
C0411.1
K2
Highest CognitVe Level
Subject Code & Name :EE8017/High voltage DC transmission Departemt: EEE Year /Semester : IV/VIII
After successful completion of the course, the students should be able to
Course Outcome No. Course Outcome Highest CognitVe Level
CO409.5 Develop adequate Soft Skills required for the workplace and long-term career
Course Outcome No. Course Outcome
CO409.1 Summarize various skills such as Soft Skills, Hard skills, employability and career Skillsand demonstrate values such as Time Management and general awareness of current affairs.
CO409.2 Demonstrate oneself before the audience by making effective presentations on introducing oneself, answering questions and visual presenting.
Develop interview skills so as to be successful in them.
K2
K2
K1
K2
SEMESTER 8
Department: EEE
Course Outcome No.
Year/Sem: IV/VIII
After successful completion of the course, the students should be able to
CO409.3 Demonstrate oneself by participating in group discussions, brainstorming sessions and question sessions. Develop activities to improve GD Skills.
CO409.4
C410.5
Course Outcome
C410.1
C410.2
K2
K3
C410.3
C410.4
Evaluate any challengingpractical problems and find solution by formulating proper methodology.
K4
Highest CognitVe Level
Course Outcome No.
Subject Code & Name :EE8811/Project Work Department: EEE Year/Sem: IV/VIII
After successful completion of the course, the students should be able to
K3Apply the power flow analysis of DC system under steady state considerations.
Interpret the harmonics control and the design considerations of the filters used in HVDC systems
Summerize the control strategies for conveter and HVDC system with the help of DC link control.
Explain concepts and planning of DC power transmission and its comparison with AC
Classify the types of HVDC conveters and analyze them with firing schemes.
K2
K2
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