undergraduate handbook 2006-2007 - university of …...b.eng. in medical engineering (jointly run...
TRANSCRIPT
Undergraduate Handbook
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DEPARTMENT OF ELECTRICAL & ELECTRONIC ENGINEERING
THE UNIVERSITY OF HONG KONG
(Ç Department of Electrical & Electronic Engineering, The University of Hong Kong
Head of Department
EComE Programme Directors
InfoE Programme Directors
EE Programme Directors
CE Programme Directors
Admissions Tutors
Chairman, Staff-studentConsultative Committee
EComE-1 Class TutorEComE-1i Class TutorEComE-11i Class Tutor
InfoE-1 Class TutorInfoE-1i Class TutorInfoE-1i1 Class Tutor
EE-I Class Tutor
EE-II Class TutorEE-III Class Tutor
CE-I Class Tutor
CE-II Class TutorCE-III Class Tutor
Senior Computer Offcer
Chief Technician
Administrative Assistant
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General EnquiriesDepartment Fax NumberEmailDepartment Home Page
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Dr. Y.S. Hung
Dr. S.C. ChanDr. S.W CheungProfessor V.O.K. LiDr. L.K. YeungProfessor F. F. WuDr. K.T ChauDr. C.H. LeungDr. K.W Tse
Mr. P.C. ChuiDr. N. WongDr. K.Y Wong
Dr. N.H.C. Yung
Dr. E. LamDr. WH. LamDr. S.C. Chan
Dr. N.H.C. YungDr. YC. WuDr. L.K. Yeung
Dr. M.H. PongDr. J. ZhongDr. K.T. Chau
Dr. N.H.C. YungDr. Y.C. WuDr. C.H. Leung
Dr. S.P.H. Lui
Mr. C.L. Chan
Ms. Q.K.Y Chan
2859 70932559 8738eee(§eee.hku.hkhttp://ww.eee.hku.hk
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This Handbook contains a summary of the undergraduate programmes in theDepartment.
Starting in 2004, the Department admits students to our four degree programmes,namely Electronic and Communications Engineering, Computer Engineering, ElectricalEngineering and Information Engineering, through common admission. By doing so, weallow students the flexibilty of selecting anyone of the four programmes after admission.Along with this change, we have revised the first year curricula so that the fourprogrammes now share a set of common or equivalent courses in the first semester ofthe first year. This not only speaks for the fact that the four programmes have acomrTon foundation in electrical and electronic engineering, but also reflects a trendtowards a more general approach in engineering education. Depending on the specificprogramme, students will be offered, in the second and third years of studies, choices ofoptional courses from a wide spectrum of topics encompassing computer systems,microelectronics, opto-electronics, wireless communications, networking, multimediasignal processing, information technology, energy conversion, power systems, controlsystems, biomedical engineering and many others. In 2005, we have further introduced aminor option. Students can now choose to study for a minor programme in business,economics or finance by taking additional courses. These minor programmes providevaluable opportunities for students who have interests beyond engineering to enhancetheir university education.
The mission of the Department is to produce the highest quality of graduates to servethe society, and to conduct leading edge research. Our educational philosophy is toequip students with problem solving skills and life-long learning capabilities. TheDepartment is committed to assist students throughout their studies to learn and todevelop as whole persons.
Head of Department
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1. Introduction to the Department of Electrical & Electronic Engineering. . . . 1
1.1 THE DEPARTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11.2 TEACHING STAFF ................................................ 11.3 LABORATORIES. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
2. Time-Table and Lectures. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
3. Undergraduate Study Programmes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
3.1 ELECTRONIC AND COMMUNICATIONS ENGINEERING .................43.2 ELECTRICAL ENGINEERING....................................... 103.3 INFORMATION ENGINEERING..................................... 153.4 COMPUTER ENGINEERING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
4. Laboratory and Tutorial Classes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
4.1 LABORATORY GUIDELINES. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 264.2 LOG BOOKS & REPORTS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 264.3 TUTORIAL CLASSES . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26
5. Workshop/Industrial Training and Integrated Study-Work Programmes . . 27
5.1 WORKSHOP TRAINING PROGRAMME .............................. 275.2 INDUSTRIAL TRAINING PROGRAMME . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 275.3 INTEGRATED STUDY-WORK PROGRAMME. . . . . . . . . . . . . . . . . . . . . . . . . . 27
6. Communication/Information Channels . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
6.1 NON-ACADEMIC TUTORS/ CLASS TUTORS.......................... 286.2 STAFF-STUDENT CONSULTATIVE COMMITTEE. . . . . . . . . . . . . . . . . . . . . . .286.3 E-MAIL, INTRANET, NOTICE BOARD & OTHERS. . . . . . . . . . . . . . . . . . . . . . 286.4 REFERENCE BOOKS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 28
7. Professional Institutions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29
7.1 HONG KONG INSTITUTION OF ENGINEERS (HKIE) ...................297.2 INSTITUTION OF ENGINEERING AND TECHNOLOGY (lET) . . . . . . . . . . . . .297.3 THE INSTITUTE OF ELECTRICAL AND ELECTRONICS ENGINEERS (IEEE) . . 30
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1.1 The Department
The Department of Electrical and Electronic Engineering is located on LG2, LG3, 1st, 2nd, 5th,6th, 7th and 8th floor of the Chow Yei Ching Building, 3rd floor of the Haking Wong Building,4th floor of the Yam Pak Building and CP-1 of the Composite Building. The Department offersthe Bachelor of Engineering (B.Eng.) degree in Electronic and Communications Engineering,B.Eng. degree in Information Engineering, B.Eng. degree in Electrical Engineering, B.Eng.degree in Computer Engineering (jointly run with the Department of Computer Science) andB.Eng. in Medical Engineering (jointly run with the Department of Mechanical Engineering).These programmes are accredited by the Hong Kong Institution of Engineers (HKIE). TheDepartment also offers the degree of Master of Science in Engineering (M.Sc.(Eng.)) inElectrical and Electronic Engineering and jointly offers the degrees of M.Sc. (Eng.) in BuildingServices and MSc in Electronic Commerce and Internet Computing with the other EngineeringDepartments in the Faculty. These courses have well-structured programmes of studyspanning over twenty-four months.
Currently over 100 research students are studying for the Ph.D. and M.Phil degrees in theDepartment and most of them are financially supported through Postgraduate Studentships,Teaching Assistantships or Research Assistantships. Currently, there are a total of 36academic staff and 26 support staff.
1.2 Teaching Staff
Among the 36 teaching staff of the department, there are 4 Chair Professors, 2 Professors, 24Senior Lecturers/Lecturers/Associate Professors/Assistant Professors, 3 Senior Teaching
Consultants/ Teaching Consultants and 3 Research Assistant Professors. Dr. YS. Hung is theHead of Department, Professor V.O.K. Li is the Chair of Information Engineering, Professor T.S.Ng is the Chair of Electronic Engineering and Dean of Engineering, Professor F.F. Wu is theChair of Electrical Engineering, and Professor E.S. Yang is the Chair of MicroelectronicsEngineering. The teaching staff members are:
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Name Rm. No. TeL. No. E-mail
Dr. S.C. Chan 719 2859 8025 scchan(Qeee.hku.hkDr. K.T. Chau 709 2859 2704 ktchau(Qeee.hku.hk
Dr. G. Chesi 515 2857 8482 chesi(Qeee.hku.hk
Prof. PYS. Cheung 601C 2859 2700 cheung(Qeee.hku.hk
Dr. S.W Cheung 506 2859 2425 swcheu ng(Qeee. hku. hk
Dr. A.H.W Choi 515 2857 8482 hwchoi(Qeee.hku.hk
Dr. WC.H. Choy 514 2857 8485 chchoy(Qeee.hku.hk
Mr. P.C. Chui 502 2859 2699 pcchui(Qeee.hku.hk
Dr. K.L. Ho 710 2859 7092 klho(Qeee.hku.hk
Dr. YS. Hung 601H 2857 8405 yshung(Qeee.hku.hk
Dr. R.Y.K. Kwok 604 2859 8059 ykwok(Qeee.hku.hk
Prof. P.T Lai 505 2859 2691 laip(Qeee.hku.hk
Dr. E. Lam 504 2241 5942 elam(Qeee.hku.hk
Dr. WH. Lam 715 28591912 whlam(Qeee.hku.hk
Mr. WK. Lee 605 2857 8403 wklee(Qeee. hku. h k
Dr. C.H. Leung 706 2859 7097 chleung(Qeee.hku.hk
Prof. V.O.K. Li 6010 2857 8425 vli(Qeee.hku.hk
Dr. K.S. Lui 717 2859 7094 kslui(Qeee.hku.hk
Prof. T.S. Ng 601G 28592710 tsng(Qeee.hku.hkDr. Y. Ni 607 2857 8491 yxni(Qeee.hku.hk
Dr. GKH. Pang 509 2857 8492 gpang(Qeee.hku.hkDr. M.H. Pong 718 2859 7099 mhp(Qeee.hku.hk
Dr. G. Shen 519 2857 8486 gxshen(Qeee.hku
Dr. V. Tam 610 2859 2697 vtam(Qeee.hku.hk
Dr. K.W Tse 707 2859 2705 kwtse(Qeee.hku.hk
Dr. WK. Tsui 611 2859 8026 wktsui(Qeee.hku.hk
Dr. K.Y. Wong 516 2857 8483 kywong(Qeee.hku.hk
Dr. N. Wong 720 2859 1914 nwong(Qeee.hku.hk
Dr. EX Wu 721 2859 7096 ewu(Qeee.hku.hkProf. F. F. Wu 601E 2859 2709 ffu(Qeee.hku.hkDr. Y.C. Wu 714 2859 7090 ycwu(Qeee.hku.hk
Prof. E.S. Yang 204 2293 0320 esyang(Qeee.hku.hkDr. L.K. Yeung 609 2857 8493 kyeung(Qeee.hku.hk
Dr. T.1. Yuk 508 2859 7098 tiyuk(Qeee.hku.hkc
Dr. N.H.C. Yung 503 2859 2685 nyung(Qeee.hku.hk
jDr. J. Zhong 608 2857 8487 jzhong(Qeee.hku.hk
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1.3 Laboratories
Laboratory
EEE Service WorkshopOffce of WorkshopCentral Equipment RoomCentre for Electrical Energy SystemsIndustrial Electronics Lab.Electrical Energy Utilization Lab.Optoelectronics/Electro-Optics Lab.
EEE Part II Lab.Digital System Design Lab.EEE Part I Lab.PC Workstation Lab.Integrated Project Lab.-CEEE Part III Project Lab.Integrated Project Lab.-A, -B
Control System Research Lab.Industrial Automation Research Lab.Control Lab.
Winkler's Research Lab.Biomedical Imaging and Signal Processing - Data Analysis Lab.Digital Image Processing & Pattern Recognition Lab.Multimedia Networking Lab.Device & Process Simulation Lab.MRI Research Lab.DSPS Technology CentreWireless Communication Lab.Staff Workstation Lab.Digital Signal Processing Lab.Spread Spectrum Research Lab.Audio Engineering Lab.
Telecommunication Lab.High FrequencylE.M. Theory/Communication Research Lab.Computer Lab.Computer System Research Lab.VLSI Design Lab.High Performance Computer Research Lab.
Power Electronics Lab.KCRC Electric Traction Lab.Electric Drives Lab.Electrical Services Application Lab.Heavy Current Research and Testing Lab.High Voltage Lab.
Power System Lab.Integrated Project Lab.-D
Building Services Lab.Integrated CircuitIhin Film Lab.
Solid State Electronics/Photo-Voltaic Lab.
Electric Vehicle Research Lab.
Biomedical Imaging and Signal Processing - 7T MRI Lab.
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Location
Chow Yei China Blda.LG301LG301ALG303LG201LG202LG203LG204LG205101102103104201202, 203501510511512513524615701705711712713722723724801,802803804805806807
Hakina Wong Bldg.301302304316318321322317
Yam Pak Blda.3/F4/F4/F
Composite Blda.CP-1
Lab. Block, Facultv ofMedicineLB 1002-4,37
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\ !lYou will be given a time-table by the Faculty of Engineering which consists of lecture sessionsof all the five engineering departments. You should note carefully the time and venue of thesessions relevant to you and attend your lectures as stated on the time-table punctually.Please also check the department notice boards and Intranet for the most up-dated time-tables.
You will note from your time-table that there are sessions for iaboratory work every week andthere will be notices posted on the notice board informing you the time and grouping for yourlaboratory sessions.
Students should note that all laboratory sessions are compulsory and absence from laboratorysessions without satisfactory reasons will be penalized and may consequently lead to failure inyour coursework.
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3.1 ELECTRONIC AND COMMUNICATIONS ENGINEERING
PROGRAMME STRUCTURE
Definitions and Terminoloav
The Level of a course shall be 1, 2 or 3. Each course shall be assigned a LeveL.
All courses are grouped into the following 6 Subject Groups:
A. Electronics and CommunicationsB. Signal Processing and SystemsC. Computer Systems, Softare & IT ApplicationsD. MathematicsE. Complementary StudiesF. Others
A Core course is a compulsory course which a candidate must pass in the manner provided for inthe Regulations. A Breadth course is a level 1 or level 2 course which is offered in one of thesubject groups as an optional course for the curriculum. A Depth course is a level 3 courseoffered in one of the subject groups as an optional course for the curriculum.
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Complementary Studies shall include, in addition to those courses listed under Group E, allbroadening courses as defined by the University but not directly related to the subject area of theprogramme.
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Subject Electives refer to any technical course offered by the Department of Electrical andElectronic Engineering, provided that it does not overlap significantly with other courses that thestudent has already enrolled. Thus a Subject Elective course can be a technical course withinor outside the list of courses in the Electronic and Communications Engineering subject groupsbelow. Courses offered by other Departments wil not be accepted as subject electives unlessspecial prior approval from the Department of Electrical and Electronic Engineering has beenobtained before enrolment.
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The Curriculum
The curriculum comprises 180 credit-units of courses as follows:
(a) 57credit-units of Core courses from Groups A-D
(b) 54 credit-units of breadth and depth courses comprising:
(i) 18 credit-units of breadth courses selected from Groups A-C
(ii) 6 credit-units of breadth courses from Group 0(iii) further 6 credit-units of breadth course(s) from Groups A-D and/or Group F(iv) 18 credit-units of depth courses seiected from Groups A-C with at least 12
credit-units selected from Group A and/or Group B(v) further 6 credit-units of breadth or depth course(s) selected from Groups A-C
(c) 36 credit-units of complementary studies courses comprising:
(i) Engineering organization and management (3 credit-units)(ii) Engineering and society (3 credit-units)(iii) Engineering economics and finance (3 credit-units)(iv) Professional and technical written communication for engineers (3 credit-units)(v) Professional and technical oral communication for engineers (3 credit-units)(vi) Practical Chinese language course for engineering students (3 credit-units)(vii) Additional 18 credit-units of Complementary Studies courses, including at least
3 credit-units in Humanities and Social Sciences studies and at least 3 credit-units in Culture and Value Studies or an area of studies outside this degreecurriculum as an elective ( 18 credit-units)
(d) 6 credit-units in Subject Electives (6 credit-units)
(e) First year project (3 credit-units)
(f) Integrated project (6 credit-units)
(g) Technical project (12 credit-units)
(h) Workshop training (3 credit-units)(i) Industrial training (3 credit-units)
To complete the degree requirement, a candidate must pass all the courses specified in thecurriculum. In addition, the candidate must pass the IT Proficiency Test and any otherrequirements as stipulated in the University or Faculty of Engineering regulations.
Order of Study
Order of study is dictated by prerequisite and co-requisite requirements. Generally, level 1courses should be taken before level two courses, level 2 courses should be taken before level 3courses and core courses should be taken before breadth courses. Course electives inComplementary Studies can be taken in any order.
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First Year
'1_The first-year syllabuses shall include the following courses:
Core Courses (Total 39 credit-units)
\ \ ELEC1201v ELEC1401VELEC1501
ELEC1611ELEC1614ELEC1801ELEC1802
Fundamental electromagnetic theory (3)Computer organization and microprocessors (6)Computer programming and data structures (6)Circuit theory & digital logic (6)
Electronic devices & circuits (6)Engineering mathematics i (6)Engineering mathematics ii (6)
Breadth Courses (Total 6 credit-units)
Six credit-units of Breadth Course(s) from Groups A-D andlor Group F
Complementary Studies (Tota/12 credit-units)
CENG1001 Practical Chinese language course for engineering students (3)ECEN1507 Professional and technical written communication for engineers (3)ECEN1508 Professional and technical oral communication for engineers (3)Additional 3 credit-units of Complementary Studies course
Project (Total 3 credit-units)
ELEC1808
Second Year
First year project (3)
The second-year syllabuses shall normally include the following courses:
Core Courses (Total 18 credit-units)
ELEC2201ELEC2202ELEC2501
Signals and linear systems (6)Communications engineering (6)Softare engineering and operating systems (6)
Breadth/Depth Courses (Total 24 credit-units)
Eighteen credit-units of Breadth Courses from Groups A-CSix credit-units of Breadth Courses from Group 0
ELEC2802ELEC2803
Complementary Studies (Total 12 credit-units)
Engineering organization and management (3)Engineering and society (3)
Additional 6 credit-units of Complementary Studies course
Project (Total 6 credit-units)UJ
jELEC2812 Integrated project (EComE) (6)
Training (3 credit-units)
ELEC1803 Workshop training (3)
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Third Year
The third-year syllabuses shall normally include the following courses:
BreadthlDepth Courses (Total 24 credit-units)
Six credit-units of Breadth/Depth course in Groups A-C (6 credit-units)Eighteen credit-units of Depth courses in Groups A-C (18 credit-units)(with at least 12 credit-units chosen from Group A and/or Group B)
Subject Elective (Total 6 credit-units)
Six credit-units of Subject Electives
Complementary Studies (Total 12 credit-units)
ELEC2804 Engineering economics and finance (3)Additional 9 credit-units of Complementary Studies courses
Project (Total 12 credit-units)
ELEC3801 Technical project (12)
Training (3 credit-units)
ELEC1804 Industrial training (3)
Minor Options (applicable to candidates admitted in the academic year 2005-2006 and thereafter)
Candidates are given an option to overload by no more than 6 credit-units in a semester topursue a minor in a discipline outside their own degree curriculum, subject to the approval of theHead of Department of Electrical and Electronic Engineering. For the descriptions of the coursesunder minor options, candidates should refer to the syllabuses of the relevant degree. The threeminor options available are listed below:
a) Minor in Businessb) Minor in Economicsc) Minor in Finance
Courses in the selected minor can be taken as Complementary Studies courses in the degreecurriculum if such courses are deemed to satisfy the complementary studies course requirementof the degree curriculum.
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,-List of Courses by Subject Groups
Note: Courses with similar contents are flagged as "mutually exclusive". For each set of mutuallyexclusive courses, students are not allowed to take more than one course.
Credit-Level Code Course Title units Prereauisite Co~reauisite
Group A Electronics and Communications
ELEC1201 Fundamental electromagnetic theory (core) 3ELEC1611 Circuit theory and digital logic (core) 6
ELEC1614 Electronic devices and circuits (core) ELEC1611
ELEC2103 Power ElectronicsELEC2202 Communications engineering (core) ELEC2201
2 ELEC2206 Electromagnetic waves ELEC12012 ELEC2301 Analogue electronics ELEC1614 (or
ELEC1303)
ELEC2302 Digital system design ELEC1611 or(ELEC1301 &ELEC1303)
ELEC2303 Design of digital integrated circuits 6 ELEC1614 (orELEC1302)
ELEC2304 Electronic materials and devices ELEC1614
3 ELEC3201 Communication systems ELEC22023 ELEC3203 Cellular radio and personal communication ELEC2202
systemsELEC3204 Information theory and coding 3ELEC3214 Microwave engineering 3 ELEC2203 or
ELEC22063 ELEC3215 Fibre optics ELEC2203 or
ELEC2206ELEC3612 VLSI design principles ELEC1614 (or
ELEC1302)
Group B Signal Processing and Systems
2 ELEC2201 Signals and linear systems (core)2 ELEC2204 Digital signal processing ELEC22012 ELEC2205 Control and instrumentation ELEC2201
3 ELEC3206 Control systems ELEC22053 ELEC3216 Robotics ELEC22053 ELEC3217 Mechatronics3 ELEC3218 Communication signal processing 3 ELEC22043 ELEC3220 Speech processing 3 ELEC22043 ELEC3505 Image and video processing 6 ELEC2201
Group C Computer Systems, Softare and IT applications
ELEC1401 Computer organization and microprocessors 6(core)
ELEC1501 Computer programming and data structures 6(core)
CSLS0278 Introduction to database management CSLS1119 orsystems ELEC1501
2 ELEC2401 Computer architecture 6 ELEC1613 or(mutually exclusive with ELEC1623) ELEC1401 or
W ELEC1622
j2 ELEC2402 Computer communications2 ELEC2501 Software engineering and operating
systems (core)ELEC2602 Object oriented and systems programming 6ELEC2701 Internet technologies and applications 6 ELEC2402
ELEC3401 Advanced internet technologies CSLS0234 orELEC2701
ELEC3503 Fuzzy systems and neural networks
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Credit-Level Code Course Title units Prereauisite Co-reauisite
ELEC3628 Network programming (mutually exclusive ELEC2602 orwith CS1S0402 System architecture and CSLS0396distributed computing)
Group D Mathematics
ELEC1801 Engineering mathematics J (core) 6ELEC1802 Engineering mathematics II (core) 6ELEC1807 Discrete mathematics 3
ELEC2808 Differential equations ELEC1801 &ELEC1802
2 ELEC2809 Numerical methods ELEC1801 &ELEC1802
ELEC2810 Optimization methodsELEC2811 Probability and statistics
Group E Complementary studies
CENG1001 Practical Chinese language course forengineering students
ECEN1507 Professional & technical written 3communication for engineers
ECEN1508 Professional & technical oral 3communication for engineers
ELEC2802 Engineering organization and managementELEC2803 Engineering and societyELEC2804 Engineering economics and finance
Group F Others
ELEC1103 Electrical technology 3ELEC1104 Electrical energy supply 3ELEC1105 Electric power plants 3ELEC1803 Workshop training 3ELEC1804 Industrial training 3ELEC1808 First year project 3
ELEC2812 Integrated project (EComE)
ELEC3801 Technical project 12
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PROGRAMME STRUCTURE
Definitions and Terminoloav:
The Level of a course shall be 1, 2 or 3. Each course shall be assigned a LeveL.
All courses are grouped into the following 8 Subject Groups:
A. Electrical EnergyB. Signals, Communications & SystemsC. Circuits & Electronics
D. Computer SystemsE. Softare & IT ApplicationsF. MathematicsG. Complementary StudiesH. Others
A Core course is a compulSOry course which a candidate must pass in the manner provided for inthe Regulations. A Breadth course is a level 1 or level 2 course which is offered in one of thesubject groups as an optional course for the curriculum. A Depth course is a level 3 courseoffered in one of the subject groups as an optional course for the curriculum.
Complementary Studies shall include, in addition to those courses listed under group G, allbroadening courses as defined by the University but not directly related to the subject area of theprogramme.
Subject Electives refer to any technical course offered by the Department of Electrical andElectronic Engineering, provided that it does not overlap significantly with other courses that thestudent has already enrolled. Thus a Subject Elective course can be a technical course within or
outside the list of courses in the Electrical Engineering subject groups below. Courses offered byother Departments wil not be accepted as subject electives unless special prior approval fromthe Department of Electrical and Electronic Engineering has been obtained before enrolment.
The Curriculum
The curriculum comprises 180 credit-units of courses as follows:
(a)(b)
69 credit-units of Core courses of the curriculum from groups A-F36 credit-units of BreadthlDepth courses comprising:(i) 18 credit-units of breadth courses from groups B-F, of which 12 credit-units are
chosen from Groups B-E and
6 credit-units from group F(ii) 18 credit-units of depth courses from groups A-E, of which at least 12 credit-
units are chosen from Group A12 credit-units in Subject Electives36 credit-units of complementary studies courses comprising:(i) Engineering organization and management (3 credit-units)(H) Engineering and society (3 credit-units)(Hi) Engineering economics and finance (3 credit-units)(iv) Professional and technical written communication for engineers (3 credit-units)(v) Professional and technical oral communication for engineers (3 credit-units)(vi) Practical Chinese language course for engineering students (3 credit-units)(vii) Additional eighteen credit-units of Complementary Studies courses, including at
least 3 credit-units in Humanities and Social Sciences studies and at least 3credit-units in Culture and Value Studies or an area of studies outside thisdegree curriculum as an elective ( 18 credit-units)j
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(c)(d)
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(e) First year project (3 credit-units)
(f) Integrated project (6 credit-units)
(g) Technical project (12 credit-units)
(h) Workshop training (3 credit-units)(i) Industrial training (3 credit-units)
To complete the degree requirement, a candidate must pass all the courses specified in thecurriculum. In addition, a candidate must pass the IT Proficiency Test and satisfy any other ¡requirements as stipulated in the University or Faculty of Engineering regulations.
Order of Study
Order of study is dictated by prerequisite and co-requisite requirements. Generally, level one
courses should be taken before level two courses, level two courses should be taken before level3 courses and core courses should be taken before breadth courses. Course electives inComplementary Studies can be taken in any order.
First Year
The first-year curriculum shall normally include the following courses:
Core Courses (Total 45 credit-units)
ELEC1103ELEC1104ELEC1105ELEC1611ELEC1614ELEC1401ELEC1501ELEC1801ELEC1802
Electrical technology (3)Electrical energy supply (3)Electric power plants (3)Circuit theory and digital logic (6)Electronic devices and circuits (6)Computer organization and microprocessors (6)Computer programming and data structures (6)Engineering mathematics I (6)Engineering mathematics II (6)
Complementary Studies (Total 12 credit-units)
CENG1001 Practical Chinese language course for engineering students (3)ECEN1507 Professional and technical written communication for engineers (3)ECEN1508 Professional and technical oral communication for engineers (3)Additional 3 credit-units of Complementary Studies course
Project (Total 3 credit-units)
ELEC1808 First year project (3)
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The second-year curriculum shall normally include the following courses:
Core Courses (Total 24 credit-units)
ELEC2101ELEC2102ELEC2103ELEC2201
Power transmission and distribution (6)Electric energy conversion (6)Power electronics (6)Signals and linear systems (6)
Breadth Courses (Total 18 credit-units)
Twelve credit-units of Breadth Courses from groups B-E.Six credit-units of Breadth Courses from group F.
Complementary Studies (Total 12 credit-units)
ELEC2802 Engineering organization and management (3)ELEC2803 Engineering and society (3)Additional 6 credit-units of Complementary Studies course
Project (Total 6 credit-units)
ELEC2805 Integrated project (EE) (6)
Training (3 credit-units)
ELEC1803 Workshop training (3)
Third Year
The third-year curriculum shall normally include the following courses:
Depth Courses (Total 18 credit-units)
Eighteen credit-units of depth courses from groups A-E, with at least twelve credit-unitsfrom Group A
Subject Electives (Total 12 credit-units)
Twelve credit-units of Subject Electives
Complementary Studies (Total 12 credit-units)
ELEC2804 Engineering economics and finance (3)Additional 9 credit-units of Complementary Studies courses
Project (Total 12 credit-units)
ELEC3801 Technical project (12)I
jTraining (3 credit-units)
ELEC1804 Industrial training (3)
12
~~~.Minor Options (applicable to candidates admitted in the academic year 2005-2006 and thereafter)
Candidates are given an option to overload by no more than 6 credit-units in a semester topursue a minor in a discipline outside their own degree curriculum, subject to the approval of theHead of Department of Electrical and Electronic Engineering. For the descriptions of the coursesunder minor options, candidates should refer to the syllabuses of the relevant degree. The threeminor options available are listed below:
a) Minor in Businessb) Minor in Economicsc) Minor in Finance
Courses in the selected minor can be taken as Complementary Studies courses in the degreecurriculum if such courses are deemed to satisfy the complementary studies course requirementof the degree curriculum.
List of Courses by Subject Groups
Note: Courses with similar contents are flagged as "mutually exclusive". For each set ofmutually exclusive courses, students are not allowed to take more than one course.
Credit-Level Code Course Title units Prereauisite Co-reauisiteGroup A Electrical Energy
ELEC1103 Electrical technology (core)ELEC1104 Electrical energy supply (core)ELEC1105 Electric power plant (core)
2 ELEC2101 Power transmission and distribution (core) ELEC1104 (orELEC1101)
ELEC2102 Electric energy conversion (core) ELEC1103 (orELEC1101)
ELEC2103 Power electronics (core)
3 ELEC3104 Electric vehicle technology 63 ELEC3105 Building services - electrical services 63 ELEC3106 Building services - electrical installations 63 ELEC3107 Power system analysis and control 6 ELEC21013 ELEC3108 Power system protection 3 ELEC21013 ELEC3109 Electric drives 3 ELEC1103 (or
ELEC1101)ELEC3110 Electric traction 3 ELEC1103 (or
ELEC1101)
Group B Signals, Communications and Systems
ELEC1201 Fundamental electromagnetic theory
2 ELEC2201 Signals and linear systems (core)2 ELEC2202 Communications engineering ELEC2201
2 ELEC2204 Digital signal processing 6 ELEC22012 ELEC2205 Control and instrumentation 6 ELEC22012 ELEC2206 Electromagnetic waves 3 ELEC1201
ELEC3201 Communication systems 6 ELEC2202ELEC3203 Cellular radio and personal communication 6 ELEC2202
systems3 ELEC3204 Information theory and coding 33 ELEC3206 Control systems 6 ELEC22053 ELEC3216 Robotics 3 ELEC22053 ELEC3217 Mechatronics 33 ELEC3218 Communication signal processing 3 ELEC2204
(3 ELEC3220 Speech processing 3 ELEC22043 ELEC3505 Image and video processing 6 ELEC2201
13
iJlrLevel Code Course Tite
Credit-units Prereauisite Co-re9.
Group C Circuits and Electronics
ELEC1611ELEC1614
ELEC2301
ELEC2302
Circuit theory and digital logic (core)Electronic devices and circuits (core)
66 ELEC1611
ELEC1614 (orELEC1303)ELEC16110r(ELEC1301 &ELEC1303)
Analogue electronics
Digital system design
ELEC2303
ELEC2304
Design of digital integrated circuits 6 ELEC1614 (orELEC1302)ELEC1614Electronic materials and devices 3
Group 0 Computer Systems
ELEC1401 Computer organization and Microprocessors 6(core)
ELEC2401 Computer architecture ELEC1613 or(mutually exclusive with ELEC1623) ELEC1401 or
ELEC16222 ELEC2402 Computer communications 62 ELEC2701 Internet technologies and applications 6 ELEC2402
ELEC3401 Advanced internet technologies 6 CSIS0234 orELEC2701
Group E Software and Information Technology Applications
ELEC1501 Computer programming and datastructures (core)
2 CSLS0278 Introduction to database management systems 6 CSLS1119 orELEC1501
2 ELEC2602 Object oriented and systems programming 62 ELEC2501 Software engineering and operating systems 6
ELEC3503 Fuzzy systems and neural networksELEC3628 Network programming (mutually exclusive
with CSIS0402 System architecture and ELEC2602 ordistributed computing) CSLS0396
Group F Mathematics
ELEC1801 Engineering mathematics I (core)ELEC1802 Engineering mathematics II (core)ELEC1807 Discrete mathematics
2 ELEC2808 Differential equations 3 ELEC1801 &ELEC1802
ELEC2809 Numerical methods ELEC1801 &ELEC1802
2 ELEC2810 Optimization methods2 ELEC2811 Probability and statistics
Group G Complementary studies
CENG1001 Practical Chinese language course forengineering students
ECEN1507 Professional & technical writtencommunication for engineers
ECEN1508 Professional & technical oral communication 3
Jfor engineers
ELEC2802 Engineering organization and managementELEC2803 Engineering and societyELEC2804 Engineering economics and finance
14
~TLevel Code Course Title
Group H Others
ELEC1803 Workshop trainingELEC1804 Industrial trainingELEC1808 First year project
2 ELEC2805 Integrated project (EE)
3 ELEC3801 Technical project
Credit-units PrereQuisite Co-reauisite
12
3.3 INFORMATION ENGINEERING
PROGRAMME STRUCTURE
Definitions and Terminoloav:
The Level of a course shall be 1, 2 or 3. Each course shall be assigned a LeveL.
All subject-related courses are grouped into the following 8 Subject Groups:
A. Communications SystemsB. Signal Processing and SystemsC. Circuits & Electronics
D. Computer Systems, Software & IT ApplicationsE. Business and Management for the IT IndustryF. MathematicsG. Complementary StudiesH. Others
A Core course is a compulsory course that a candidate must pass in the manner provided for inthe Regulations. A Breadth course is a level 1 or level 2 course which is offered in one of thesubject groups as an optional course for the curriculum. A Depth course is a level 3 courseoffered in one of the subject groups as an optional course for the curriculum.
Complementary Studies shall include, in addition to those courses listed under Group G, allbroadening courses as defined by the University but not directly related to the subject area of theprogramme.
Subject Electives refer to any technical course offered by the Department of Electrical andElectronic Engineering, provided that it does not overlap significantly with other courses that thestudent has already enrolled. Thus a Subject Elective course can be a technical course withinor outside the list of courses in the Information Engineering subject groups below. Coursesoffered by other Departments wil not be accepted as subject electives unless special priorapproval from the Department of Electrical and Electronic Engineering has been obtained beforeenrolment.
The Curriculum
The curriculum comprises of 180 credit-units of courses as follows:
(a) 75 credit-units of Core courses from groups A-D, and F
(b) 12 credit-units of courses in business and related studies selected from group E.
(c) 36 credit-units of breadth and depth courses selected from groups A-F (at most 6credit-units from group E in addition to (b) above, and at most 6 credit-units fromGroup F in addition to (a) above).
w.8c
t15
'l(d) 24 credit-units of complementary studies courses comprising:
(i) Engineering and society (3 credit-units)
(ii) Professional and technical written communication for engineers (3 credit-units)
(iii) Professional and technical oral communication for engineers (3 credit-units)
(iv) Practical Chinese language course for engineering students (3 credit-units)(v) Additional 12 credit-units of Complementary Studies, at least 3 credit-units in
Humanities & Social Sciences, and at least 3 credit-units in Culture and ValueStudies or an area of studies outside this degree curriculum as an elective(12 credit-units)
(e) 6 credit-units in Subject Electives
(f) First year project (3 credit-units)
(g) Integrated project (6 credit-units)
(h) Technical project (12 credit-units)
(I) Workshop training (3 credit-units)Ul Industrial training (3 credit-units)
To complete the degree requirement, a candidate must pass all the courses specified in thecurriculum. In addition, the candidate must pass the IT Proficiency Test and any otherrequirements as stipulated in the University or Faculty of Engineering regulations.
Order of Study
Order of study is dictated by prerequisite and co-requisite requirements. Generally, level 1
courses should be taken before level two courses, level 2 courses should be taken before level 3courses and core courses should be taken before breadth courses. Course electives inComplementary Studies can be taken in any order.
First Year
The first-year syllabuses shall include the following courses:
Core Courses (Total 39 credit-units)
ELEC1611ELEC1614ELEC1401ELEC1501ELEC1702ELEC1801ELEC1802
Circuit theory and digital logic (6)Electronic devices and circuits (6)Computer organization and microprocessors (6)Computer programming and data structures (6)Fundamentals of information engineering (3)Engineering mathematics I (6)Engineering mathematics II (6)
Business and Related Courses (Total 6 credit-units)
BUSI1007 Principles of management (6)
Complementary Studies (Total 12 credit-units)
CENG1001 Practical Chinese language course for engineering students (3)ECEN1507 Professional and technical written communication for engineers (3)ECEN1508 Professional and technical oral communication for engineers (3)Additional 3 credit-units of Complementary Studies course
~Project (Total 3 credit-units)
ELEC1808 First year project (3)
16
lØ1J'r::lÍ'l~'
Second Year
The second-year syllabuses shall normally include the following courses:
Core Courses (Total 36 credit-units)
ELEC2201ELEC2202ELEC2402ELEC2501ELEC2701ELEC2811
Signals and linear systems (6)Communications engineering (6)Computer communications (6)Software engineering and operating systems (6)Internet technologies and applications (6)Probability and statistics (3)
Choose one out of the following:
ELEC1807ELEC2808ELEC2809ELEC2810
Discrete mathematics (3)Differential equations (3)Numerical methods (3)Optimization methods (3)
BreadthlDepth Courses (Total 6 credit-units)
Six credit-units of Breadth Course from Groups A-D
Business and Related Studies (Total 6 credit-units)
Six credit-units of Course from Group E
Complementary Studies (Total 6 credit-units)
Project (Total 6 credit-units)
ELEC2803 Engineering and society (3)One three credit-unit course in Complementary Studies
ELEC2807
Training (3 credit-units)
ELEC1803
Third Year
Integrated project (InfoE) (6)
Workshop training (3)
The third-year syllabuses shall normally include the following courses:
Breadth/Depth Courses (Total 30 credit-units)
Thirty credit-units of Breadth/Depth courses in Groups A-F (30 credit-units).No more than 12 credit-units should be allocated to Breadth courses.No more than 18 credit-units should be al'ocated to a single group.No more than 6 credit-units should be allocated to group E.
Subject Elective (Total 6 credit-units)
Six credit-units of Subject Electives
(
~
~17
..
,
Second Year
~The second-year syllabuses shall normally include the following courses:
Core Courses (Total 36 credit-units)
ELEC2201ELEC2202ELEC2402ELEC2501ELEC2701ELEC2811
Signals and linear systems (6)Communications engineering (6)Computer communications (6)Software engineering and operating systems (6)Internet technologies and applications (6)Probability and statistics (3)
Choose one out of the following:
ELEC1807ELEC2808ELEC2809ELEC2810
Discrete mathematics (3)Differential equations (3)Numerical methods (3)Optimization methods (3)
BreadthlDepth Courses (Total 6 credit-units)
Six credit-units of Breadth Course from Groups A-D
Business and Related Studies (Total 6 credit-units)
Six credit-units of Course from Group E
List of Courses by Subject Groups
Note: Courses with similar contents are flagged as "mutually exclusive". For each set ofmutually exclusive courses, students are not allowed to take more than one course.
Credit-L::wel Code Course Title units Prereauisite Co-reauisiteGroup A Communications Systems
33
ELEC1702ELEC1201
ELEC2202
ELEC3201ELEC3203
ELEC3204
Fundamentals of information engineering (core)3Fundamental electromagnetic theory 3
Communications engineering (core) ELEC2201
Communication systemsCellular radio and personal communicationsystemsInformation theory and coding
66
ELEC2202ELEC2202
ELEC2201
ELEC2204
Group B Signal Processing and Systems
Signals and linear systems (core) ELEC1611 (orELEC1301)ELEC2201
ELEC2204ELEC2204ELEC2204ELEC2201
3333
ELEC3212ELEC3218ELEC3220ELEC3505
JGroup C Circuits and Electronics
ELEC1611ELEC1614
ELEC2301
18
Digital signal processing
Speech recognitionCommunication signal processingSpeech processingImage and video processing
6336
Circuit theory and digital logic (core)Electronic devices and circuits (core) ELEC1611
Analogue elect;.onics ELEC1614 (orELEC1303)
~Level Code Course Title
Credit-units Prereauisite Co-reauisite
2 ELEC2302 Digital system design ELEC16110r(ELEC1301 &ELEC1303)ELEC1614ELEC2303 Design of digital integrated circuits
ELEC3612 VLSI design principles ELEC1614 (orELEC1302) or(ELEC1301 &ELEC1303)
Group 0 Computer Systems, Softare and IT Applications
ELEC1401 Computer organization and microprocessor 6(core)
ELEC1501 Computer programming and data structure(core)
CSIS0278 Introduction to database management systems 6 CSLS1119 orELEC1501
2 ELEC2401 Computer architecture ELEC1613 or(mutually exclusive with ELEC1623) ELEC1401 or
ELEC1622ELEC2402 Computer communications (core)ELEC2501 Software engineering and operating systems
(core)2 ELEC2601 Human computer interaction 62 ELEC2602 Object oriented and systems programming 62 ELEC2701 Internet technologies and applications (core) 6 ELEC2402
3 CSLS0218 Discrete event simulation CSLS1119 orCSlS1122 orELEC1501
CSIS0250 Design and analysis of algorithms CSLS1119 orELEC1501(Pre- or Co.requisites)
3 CSLS0323 Advanced database Systems 6 CSIS02783 ELEC3401 Advanced internet technologies 6 CSIS0234 or
ELEC27013 ELEC3503 Fuzzy systems and neural networks3 ELEC3505 Image and video processing ELEC22013 ELEC3621 Introduction to parallel programming ELEC2401 or
ELEC1623ELEC3622 Distributed computing systems (ELEC2501 or
CSIS0230) &(ELEC2402 orCSIS0234)
3 ELEC3626 Computer network security ELEC2402 or(mutually exclusive with ELEC6070) CSLS0234
ELEC3628 Network programming (mutually exclusive 3 ELEC2602 orwith CSLS0402 System architecture and CSLS0396distributed computing)
Group E Business and Management in IT~lndustry
BUSI1006 Principles and practices of modern business 3BUSi1007 Principles of management (compulsory) 6
BUSl0016 Introduction to finance 6 Backgroundon Accounting
2 BUSI0023 Operations and quality management 62 BUSI1001 Business law 6 W
ELEC3701 Telecommunication policy and regulations 6 t19
() :i
. .
Programmes
Level Code Course Title
Group F Mathematics
ELEC1801 Engineering mathematics I (core)ELEC1802 Engineering mathematics II (core)ELEC1807 Discrete mathematics
ELEC2808 Differential equations
ELEC2809 Numerical methods
2 ELEC2810 Optimization methods2 ELEC2811 Probability and statistics (core)
ELEC3703 Queuing theoryELEC3704 System modeling and performance analysis
Credit-units Prereauisite Co-reauisite
ELEC1801 &ELEC1802ELEC1801 &ELEC1802
ELEC3703
Group G Complementary studies
CENG1001 Practical Chinese language course forengineering students
ECEN1507 Professional & technical writtencommunication for engineers
ECEN1508 Professional & technical oral communicationfor engineers
ELEC2803 Engineering and society
Group H Others
ELEC1803 Workshop trainingELEC1804 Industrial trainingELEC1808 First year project
2 ELEC2807 Integrated project (InfoE)
3 ELEC3801 Technical project 12
3.4 COMPUTER ENGINEERING
PROGRAMME STRUCTURE
Definitions and Terminoloav:
The Level of a course shall be 1, 2 or 3. Each course shall be assigned a LeveL.
All courses are grouped into the following 7 Subject Groups:
A. Hardware and digital technology
B. Computer architecture and systems
C. System softare and programmingD. Computer applicationsE. MathematicsF. Complementary studiesG. Others
lA Core Course is a compulsory course which a candidate must pass in the manner provided forin the Regulations. A Breadth Course is a level 1 or level 2 course that is offered in one of thesubject groups as an optional course for the curriculum. A Depth Course is a level 3 courseoffered in one of the subject groups as an optional course for the curriculum.
Complementary Studies shall include, in addition to those courses listed under group F, allbroadening courses as defined by the University but not directly related to the subject area of theprogramme.
20
5lIJi(::IÍ'~ (
Subject Electives refer to any technical course offered by the Department of Electrical andElectronic Engineering and the Department of Computer Science, provided that it does notoverlap significantly with other courses that the student has already enrolled. Thus a SubjectElective course can be a technical course within or outside the list of courses in the ComputerEngineering subject groups below. Courses offered by other Departments wil not be accepted assubject electives unless special prior approval from the Department of Electrical and ElectronicEngineering has been obtained before enrolment.
The Curriculum
The curriculum comprises 180 credit-units of courses as follows:(a) 84 credit-units of Core Courses from Groups A-E(b) 27 credit-units of BreadthlDepth courses comprising
(i) at least 6 credit-units of Depth Course(s) selected from Groups A-D; and
(ii) the remaining are Breadth or Depth Courses selected from Groups A-E
(c) 6 credit-units of Subject Elective course(s)
(d) Complementary Studies courses comprising (Total 36 credit-units):(i) Engineering organization and management (3 credit-units)
(ii) Engineering and society (3 credit-units)
(iii) Engineering economics and finance (3 credit-units)(iv) Professional and technical written communication for engineers (3 credit-units)
(v) Professional and technical oral communication for engineers (3 credit-units)
(vi) Practical Chinese language course for engineering students (3 credit-units)(vii) Additional eighteen credit-units of Complementary Studies courses, including
at least three credit-units in Humanities and Social Sciences Studies and atleast 3 credit-units in Culture and Value Studies or an area of studies outsidethis degree curriculum as an elective ( 18 credit-units)
(e) Integrated project -- embedded systems (9 credit-units)(f) Technical project (12 credit-units)
(g) Workshop training (3 credit-units)(h) Industrial training (3 credit-units)
To complete the degree requirement, a candidate must pass all the courses specified in thecurriculum. In addition, the candidate must pass the IT Proficiency Test and any otherrequirements as stipulated in the University or Faculty of Engineering regulations.
Order of Study
Order of study is dictated by prerequisite and co-requisite requirements. Generally, level onecourses should be taken before level two courses, level two courses should be taken before level3 courses and core courses should be taken before breadth courses. Course electives inComplementary Studies, including the course in Humanities and Social Sciences/Culture & Valueand Language, can be taken in any order.
First Year
The first-year syllabuses shall include the following courses:
Core Courses (Total 48 credit-units)
CSIS1117CSIS1118CSIS1119CSIS1122ELEC1401ELEC1611ELEC1614ELEC1801
Computer programming IMathematical foundations of computer scienceIntroduction to data structures and algorithmsComputer programming IIComputer organization and microprocessorsCircuit theory and digital logicElectronic devices and circuitsEngineering mathematics I e
21
-Complementary Studies (Total 12 credit-units)
CENG1001 Practical Chinese language courge for engineering studentsECEN1507 Professional and technical written communication for engineersECEN1508 Professional and technical oral communication for engineersAdditional 3 credit-units of Complementary Studies Course.
Second Year
The second-year syllabuses shall normally include the following courses:
Core Courses (Total 36 credit-units)
CSLS0230CSIS0234CSIS0297ELEC1802ELEC2302ELEC2401
Principles of operating systemsComputer and communication networksIntroduction to software engineeringEngineering mathematics IIDigital system designComputer architecture
Breadth/Depth Course (Total 3 credit-units)
Three credit-units of Breadth/Depth Course selected according to item (b) of the curriculum.
Complementary Studies (Total 12 credit-units)
ELEC2802 Engineering organization and managementELEC2803 Engineering and societyAdditional 6 credit-units of Complementary Studies Course(s)
Project (Total 9 credit-units)
ELEC2806 Integrated project -- embedded systems
Training (3 credit-units)
ELEC1803 Workshop training
Thkd Year
The third- year syllabuses shall normally include the following courses:
BreadthdDep':h Courses (Total 24 credit-units)
Twenty-four credit-units of Breadth/Depth Courses selected according to item (b) of thecur:iculum.
Subject Elective (Total 6 credit-units)
S.X c.edit-units of Subject Elective
Complemen'ary Studies: (Total 12 credit-units)
j ELEC2804 Engineering economics and financeAdditional nine credl-units o. Complementary Studies Courses
22
~IJir:.¡:.lPJ(
Project (Total 12 credit-units)
ELEC3802 Technical projectTraining (3 credit-units)
ELEC1804 Industrial training
Minor Options (applicable to candidates admitted in the academic year 2005-2006 and thereafter)
Candidates are given an option to overload by no more than 6 credit-units in a semester topursue a minor in a discipline outside their own degree curriculum, subject to the approval of theHead of Department of Electrical and Electronic Engineering. For the descriptions of the coursesunder minor options, candidates should refer to the syllabuses of the relevant degree. The threeminor options available are listed below:
a) Minor in Businessb) Minor in Economicsc) Minor in Finance
Courses in the selected minor can be taken as Complementary Studies courses in the degreecurriculum if such courses are deemed to satisfy the complementary studies course requirementof the degree curriculum.
List of Courses by Subject Groups
Note: Courses with similar contents are flagged as "mutually exclusive". For each set of mutuallyexclusive courses, students are not allowed to take more than one course.
Credit-Level Code Course Title units PrereQuisite Co-reauisiteGroup A Hardware and Digital Technology
22222
ELEC1611ELEC1614
ELEC2201ELEC2202ELEC2204ELEC2205ELEC2302
ELEC2303
2 ELEC2304
ELEC3201ELEC3203
3333
ELEC3204ELEC3505ELEC3220ELEC3612
Circuit theory & digital logic (core)Electronic devices & circuits (core)
Signals and linear systemsCommunications engineeringDigital signal processingControl and instrumentationDigital system design (core)
66666
ELEC2201ELEC2201
ELEC2201ELEC16110r(ELEC1301 &ELEC1303)ELEC1302 orELEC1614ELEC1614
Design of digital integrated circuits
Electronic materials and devices
Communication systemsCellular radio and personal communicationsystems (mutually exclusive withCSIS0328, ELEC6071)Information theory and codingImage and video processingSpeech processingVLSI design principles
66
ELEC2202ELEC2202
3636
ELEC2201ELEC2204ELEC1302 orELEC1614
ELEC1401
Group 8 Computer Architecture and Systems
Computer organization µprocessors (core)
2 CSlS0234
3
ELEC2401
CSLS0328
Computer and communicationnetworks (core)
Computer architecture (core)
Wireless and mobile computing(mutuaily exclusive with ELEC3203,ELEC6071 )
6
6
CSlS1120 orELEC1401 orELEC1613ELEC1401
CSIS0234 (23
l-Level Code Course Title
Credit-Lls Prere91!; Co-reguisite
ELEC3401
ELEC3621
ELEC3622
Advanced internet technologies
Introduction to parallel programming
Distributed computing systems
CS1S0234 orELEC2701ELEC2401 orELEC1623(ELEC2501 orCSIS0230) &(ELEC2402 orCSIS0234)ELEC2402 orCSIS0234
Computer network security(mutually exclusive with ELEC6070)
The following MSc courses may be selected as a subiect elective.MSc ELEC6036 High performance computer architecture
ELEC3626
MSc ELEC6071 Wireless networking (mutually exclusivewith ELEC3203, CSIS0328)
ELEC1623 orELEC2401ELEC2402 orCSIS0234
Group C System Software & Programming
CSIS1117 Computer programming I (core)CSIS1119 Intra. to data structures and algorithms (core) CSIS1117 or CS1S1122
ELEC1501 (ComputerProgrammin9 II)
CSIS1122 Computer programming II (core) CSIS1117 orELEC1501
2 CSIS0230 Principles of operating systems (core) CSIS1119 &(CS1S1120 orELEC1401 orELEC1613)
CSIS0259 Principles of programming languages 6 CSIS1119 &(CSIS1120 orELEC1401 orELEC1613)
CS1S0278 Introduction to database management CSIS1119 orsystems ELEC1501
CSIS0297 Introduction to softare engineering (core) CSIS1122CSIS0396 Object-oriented programming and Java CSIS1117 or
(mutually exclusive with ELEC2602) ELEC15012 ELEC2601 Human computer interaction 6
CSIS0218 Discrete event simulation CS1S1119 orCSIS1122 orELEC1501
3 CSIS0232 Operating systems laboratory CSIS02303 CSLS0233 Open source software development Prerequisite: CSIS0230; OR
Co-requisite: CSIS0234 andCSIS0297
CSIS0235 Compiling techniques CSIS0259CSIS0250 Design and analysis of algorithms CSIS1119 or
ELEC1501(Pre- or Co-requisites)
CSIS0323 Advanced database systems 6 CSIS0278CSIS0403 Implementation, testing and maintenance of 6 CSIS0297 or
software systems CSIS0401(Pre-or Co-requisite)
ELEC3628 Network programming (mutually exclusive ELEC2602 orwith CSIS0402 System architecture and CSIS0396distributed computing)
Group D Computer Applications
3 CSIS0270 Artiicial intelligence CSIS11193 CSIS0271 Computer graphics CSIS1119 or
CSIS1122
jCSIS0314 Pattern classification and machine learning CS1S1119 or
ELEC15013 CS1S0315 Multimedia computing and applications 6 CSLS11193 CSIS0317 Computer vision 6 CSIS1119 or
(mutually exclusive with ELEC1501ELEC3504 & ELEC3505)
CSIS0318 Advanced multimedia CSIS0315
24
"\~:l~'V
(
Credit~Level Code Course Title units Prereauisite Co-reauisite
3 CSlS0320 Electronic commerce technology CSIS02783 CSIS0322 Internet and the World Wide Web CSIS1117 or
(mutually exclusive with CSIS0325) ELEC1501CSlS0325 Topics in Web technologies (mutually CSIS0322 or
exclusive with CSIS0322) CSIS02343 CSLS0326 Computational molecular biology CSIS0250; or
BIOC2808 &BlOC3808
CSIS0329 Computer game design and programming 6 CSIS0271ELEC3216 Robotics 3 ELEC2205ELEC3503 Fuzzy systems and neural networks 6
Group E Mathematics
CSLS1118 Mathematical foundations of computer 6science (core)
ELEC1801 Engineering mathematics i (core)ELEC1802 Engineering mathematics II (core)
ELEC2808 Differential equations ELEC1801 &ELEC1802
ELEC2809 Numerical methods ELEC1801 &ELEC1802
2 ELEC2810 Optimization methods 32 ELEC2811 Probability and statistics 3
ELEC3703 Queuing theoryELEC3704 System modeling and performance analysis ELEC3703
Group F Complementary Studies
CENG1001 Practical Chinese language coursefor engineering students
CENG1002 Putonghua course for engineeringstudents (restricted enrolment) 0 CENG1001
CENG1003 Advanced language studies inChinese for engineering students CENG1001
ECEN1507 Professional & technical writtencommunication for engineers
ECEN1508 Professional & technical oralcommunication for engineers
2 ELEC2802 Engineering organization and management 32 ELEC2803 Engineering and society 32 ELEC2804 Engineering economics and finance 3
Group G Others
ELEC1803 Workshop training 3ELEC1804 Industrial training 3
2 ELEC2806 Integrated project -- embedded systems
ELEC3802 Technical project 12
In the event of discrepancy, the syllabuses and requirements prescribed by the University willtake precedence.
t25
~.
) 'Il-4.1 Laboratory Guidelines
Laboratory work forms an important and integral part of our B.Eng degree courses. Duringthese scheduled sessions, you will be asked to conduct experiments and investigation heavilyrelated to the courses of that year. Instruction sheets will be given in advance anddemonstrators (postgraduate students) will be present during the sessions to advise and assiststudents who may have difficulties. Member(s) of staff may also be present to supervise thelaboratory and answer questions.
You are expected to observe the rules and regulations while staying in the laboratory,especially the safety aspects of handling electrical equipment. Demonstrators and members ofstaff are responsible to reinforce these rules and regulations. Any students appear to act inconflct with these rules and regulations may not be allowed to use the laboratory.
4.2 Log Books & Reports
A student's laboratory work is assessed by the log book(s) he/she keeps and the full laboratoryreports submitted at a published set of dates. Therefore, it is vital for you to keep a completerecord of the experiments performed in your log book(s), as well as giving a detail account ofthe experiment in a report. Report copying, once discovered, wil attract heavy penalty.
Students who fail their laboratory assessment of a particular course wil fail that courseautomatically, irrespective of how they performed in the written examination.
4.3 Tutorial Classes
Tutorial classes are also organized throughout the year at appropriate times for you to raisequestions related to their courses. Tutorial problem sheets may be handed out by the courseteachers, and you may be asked to hand in written solutions as part of their courseassessment. Although scheduled in the time-table, the exact dates for these classes will beannounced by individual teachers.
"0 IIi: 3lII (/~.!0(,--II II.. '-
5~
26
~~~::(5.1 Workshop Training Programme
The Department offers a compulsory Workshop Training Programme during the summervacation to all our undergraduate students of all four disciplines who have completed their firstyear. This programme is designed to satisfy the HKIE and EC(UK) membership requirements,and is organized by the University Technology Support Centre in conjunction with theVocational Training Council. II aims to expose our students to up-to-date and sophisticatedequipment used in industry currently, and to provide hands-on skills and experience in theprocesses of design, implementation and testing of electrical, electronic and computerengineering systems.
5.2 Industrial Training Programme
There is a compulsory Industrial Training Programme during the summer vacation for all ourundergraduate students who have completed their 2"' year of study. This two-month placementwith industrial companies is designed for our students to learn how today's EEE/EComE, InfoE,EESE and CE companies operate. Emphasis is placed on the problem solving of engineeringprojects. Students wil also be exposed to other related technical and/or managerial activities.
5.3 Integrated Study-Work Programme
In addition to the above two programmes, students may elect to join an optional IntegratedStudy-Work Programme at the end of their second year. The essence of this programme is toenable students to enter employment in a relevant discipline for a year before they begin theirfinal year course. This study work concept enables the student to develop a more mature andpractical outlook towards his job and profession with benefit to both the students and to HongKong Industry. Normally, the programme must be approved by the Head of Department inadvance. Students who join this programme will be assigned to a supervisor at the companyand an academic supervisor from the department. Their role is to provide advice and supportduring that year. If you are interested in the above programme, you should either talk to yournon-academic tutor or course director.
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6.1 Non-Academic Tutors! Class Tutors
Each new student will be assigned to an academic staff acting as his/her "non-academic" tutorwhen he/she first arrives. The attachment spans through the 3 years degree course and it ishoped that students will meet their tutors regularly. The role of a non-academic tutor is toprovide guidance to students in the non-academic areas of their university lives. The frequencyof meetings is flexible and can be arranged between the student and his/her tutor.
Apart from the non-academic tutors, there are also class tutors for students of each curriculumand of each year. His/her role is to offer advice on students' studies and other academicmatters.
The class tutors' names are printed under the "Useful Numbers" section of this handbook.
6.2 Staff-Student Consultative Committee
The role of the Staff-Student Consultative Committee (SSCC) is to enable classrepresentatives and class tutors to meet face to face to discuss matters raised by students orteachers. In the past, the SSCC met on an average of two times a year to discuss matterssuch as problems and difficulties encountered in lectures, laboratory classes, teachingassistants, reporting scheme, computer utilization, departmental accommodation, and manyother similar issues. The atmosphere during the SSCC is often informal, positive and problemsolving.
The meeting is usually organized by the Administrative Assistant of the department, and theChairman is Dr. N.H.C. Yung
6.3 E-mail, Intranet, Notice Board & Others
Throughout the academic year, there are a lot of messages and information which thedepartment or individual teachers would like to channel to you through email, departmentalintranet and notices. it is therefore your responsibility to read email, departmental intranet andnotices on the Department Notice board.
You should also elect among yourselves one or two Class Representative(s) who areresponsible, when necessary, for channeling departmental notices, distributing notes andhandouts, collecting opinion and feedback from students and attending to other studentmatters. They will also be invited to attend the Staff-Student Consultative Committee Meetingsof the department.
6.4 Reference Books
Individual teachers may recommend references and/or textbooks at the beginning of thesemester for their courses. You are encouraged to use the University Main Library facilitieswhen you need to search for references.
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7.1 Hong Kong Institution of Engineers (HKIE)
The Hong Kong Institution of Engineers is the professional engineering learned society andqualifying body for Hong Kong and as such has a responsibility of settng and maintaining theprofessional and technical standards of its members. To this end, it evaluates thequalifications for admission to grades of Institution membership.
The Corporate Membership status (M.H.K.I.E.lF.H.K.I.E.) of the HKIE is recognized by theHong Kong Government. Since our B.Eng. programmes are accredited by the HKIE, ourgraduates are recognized by the HKIE as having satisfied the academic part of the CorporateMembership (M.H.K.I.E.lFH.K.I.E.) qualification. The qualification matters are the responsibilityof the Qualification and Membership Board of the Institution. All the engineering disciplinesincluding the Electrical Discipline and the Electronic Discipline are represented by theirrespective Discipline Representatives as members of this Board. The learned society functionsare organized by the elected committees of various Divisions which HKIE members areentitled to join according to their own interests. Our students may find the following Divisions,among others, to be of interest: (a) Electrical, (b) Electronics, (c) Control, Automation &Instrumentation, (d) Biomedical, (e) Environment, (f) Information Technology, and (g) BuildingServices. The HKIE monthly journal, the Asia Engineer, is circulated free to all its members.The HKIE offers one year free membership for the Freshman.
The HKIE takes very seriously its responsibilities with regard to the Washington Accord and tofostering, maintaining and developing bilateral and international agreements for the mutualrecognition of qualifications. This is undertaken through links with a number of internationalengineering initiatives which have been established to hormonise qualifications and torecognize accreditation methods and standards; the Washington Accord, Federation ofEngineering Institutions of South East Asia and Pacific (FEISEAP) and European Federation ofNational Engineering Associations (FEANI) are examples.
7.2 Institution of Engineering and Technology (lET)
The Institution of Engineering and Technology was formed by the coming together of theInstitution of Electrical Engineers (lEE) and the Institution of Incorporated Engineers (liE) andnow has more than 150,000 members worldwide. It is the largest professional engineeringsociety in Europe and the second largest of its type in the world. It aims to serve a globalcommunity engaged in engineering and technology, providing a knowledge network accessiblewhenever or wherever you choose.
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, I Institutions
7.3 The Institute of Electrical and Electronics Engineers (IEEE)
The Institute of Electrical and Electronics Engineers is the world's leading professional
association for the advancement of technology. Through its global membership, the IEEE is aleading authority on areas ranging from aerospace systems, computers and telecommunicationsto biomedical engineering, electric power and consumer electronics among others. Members relyon the IEEE as a source of technical and professional information, resources and services. Tofoster an interest in the engineering profession, the IEEE also serves student members incolleges and universities around the world. Other important constituencies include prospective
members and organizations that purchase IEEE products and participate in conferences or otherIEEE programs. IEEE members are engineers, scientists and allied professionals whosetechnical interests are rooted in electrical and computer sciences, engineering and relateddisciplines. The highest grade of membership IEEE fellow is attained through nomination bypeers and approval by the IEEE Board of Directors for distinction in the profession.
The Hong Kong Section of IEEE was formed in 1972 and is one of the oldest sections in theregion. The section, with its student branches, organizes seminars, short courses, visits,conferences and other technical activities to promote the advancement of electrical, electronicsand computer engineering. Student members enjoy much reduced subscription rate, varioussupports in the form of publications, library etc. and opportunity to be trained as student leaders.
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