dbms9
DESCRIPTION
TRANSCRIPT
MANAGING
DATA
RESOURCES
Why do businesses have trouble finding the information they need in their information systems?
How does a DBMS improve the organization of business information?
What are the managerial requirements of a data-base environment?
What new technologies make databases more accessible and useful?
OBJECTIVES
A computer system organizes data in a hierarchy that starts with bits and progresses to field, records, files, and databases
Bit: Smallest unit of data; binary digit (0,1)Byte: Group of bits that represents a single character (letter, a
number or symbol)Field: Group of related bytes ( complete word or a complete
number like name, age etc.,)- related words or a complete number
Record: Group of related fields(such as student’s name, course taken,section,grade etc.,)
File: Group of records of same type(students records constitute a course file)
Database: Group of related files( course file, financial file, personal history file)
ORGANIZING DATA IN A TRADITIONAL FILE ENVIRONMENT
File Organization Terms and Concepts
ORGANIZING DATA IN A TRADITIONAL FILE ENVIRONMENT
Entity: Person, place, thing, event about which information is maintained(An order is a typical entity in a sales order file)
Attribute: Description of a particular entity (characteristic or quality, order number, order date, amount, item no., and item quantity )
Key Field: Unique identifier field used to retrieve, update, or sort a record
File Organization Terms and Concepts
ORGANIZING DATA IN A TRADITIONAL FILE ENVIRONMENT
ORGANIZING DATA IN A TRADITIONAL FILE ENVIRONMENT
Data redundancy
Program-data dependence
Lack of flexibility
Poor security
Lack of data-sharing and availability
Problems with the Traditional File Environment
ORGANIZING DATA IN A TRADITIONAL FILE ENVIRONMENT
Problems with the Traditional File Environment
Data Redundancy-It is the presence of duplicate data in multiple data files.
Program Data Independence – it is the tight relationship between data stored in files and the specific programs required to update and maintain those files.
Lack of Flexibility-A traditional file system can deliver routine scheduled reports after expensive programming efforts, but it cannot deliver ad hoc reports to respond to anticipated information requirements in a timely fashion.
Poor security – Because there is little control of management of data, access to and dissemination of information may out of control
Lack of data sharing and availability –It is not easy to obtain information because pieces of information in different files and different parts of the organisation cannot be related to one another, it is virtually impossible information to be shared or accessed in a timely manner.
File Organization Terms and Concepts
ORGANIZING DATA IN A TRADITIONAL FILE ENVIRONMENT
Order number is the key field because each order is assigned
a unique identification number
THE DATABASE APPROACH TO DATA MANAGEMENT
Database
•A collection of data organized to service many applications at the same time by storing and managing
data so they appear to be at one location
•A collection of data organized to service many applications efficiently by centralising the data and
minimising redundant data.
•A single data base service multiple applications
•Ex: Instead of a Corporation storing employee data in separate information systems and separate files for
personnel, payroll and benefits , the Corpotation could create a single common human resources
database
Database Management System (DBMS)
THE DATABASE APPROACH TO DATA MANAGEMENT
A single HRDB serves multiple applications and also allows a corporation to easily draw
together all
the Information for various applications. The DBMS acts as the interface between the
application programs and the data
THE DATABASE APPROACH TO DATA MANAGEMENT
Database technology can cut through many of the problems a traditional file organization
creates
DBMS is a special software to create and maintain a database and
enable individual business applications to extract the data they
need without having to create separate files or data definitions in
their computer programs.
Database Management System (DBMS)
THE DATABASE APPROACH TO DATA MANAGEMENT
Database technology can cut through many of the problems a traditional file organization
creates
The Database Management System (DBMS) is simply a software
•which creates and maintains databases
•that permits an organisation to cdntralise data, manage them efficiently and provide access to the stored
data by application programs.
•Eliminates most of the data definition statements found in traditional programs
•Acts as interface between application programs and physical data files
•Separates logical and physical views of data
Database Management System (DBMS)
THE DATABASE APPROACH TO DATA MANAGEMENT
Database technology can cut through many of the problems a traditional file organization
creates
The logical view presents data as they would be percieved by end users or business specialists whereas
Physical view shows how data are actually organised and structured on physical storage media
There is only one physical view of the data but different logical views. The DBMS software makes the physical
database available for different logical views presented for various application programs
An employee retirement benefits program might use a logical view of the human resources data base that
requires only the employees name, address, social security number, pension plan, and retirement benefits
data.
Database Management System (DBMS)
Components of a Database
•Data Definition Language:
– Specifies content and structure of database and defines each data
element
•Data Manipulation Language:
– Manipulates data in a database
•Data Dictionary:
– Stores definitions of data elements, and data characteristics
7.2 THE DATABASE APPROACH TO DATA MANAGEMENT
Database Management System (DBMS)
Types of Databases
•Hierarchical DBMS
•Organizes data in a tree-like structure
•Prevalent in large legacy systems
•Less flexible than RDBMS
•Lacks support for English language-like queries
•Relational DBMS (RDBMS)
•Represents data as 2D tables called ‘relations’
•Relates data across tables based on ‘key’
•Egs: DB2, Oracle, MS SQL Server, MS Access
THE DATABASE APPROACH TO DATA MANAGEMENT
THE DATABASE APPROACH TO DATA MANAGEMENT
Types of Databases
THE DATABASE APPROACH TO DATA MANAGEMENT
Types of Databases
Three Basic Operations in a Relational DBMS
•Select: Creates subset of rows that meet specific criteria
•Join: Combines relational tables to provide users with information
•Project: Enables users to create new tables containing only relevant
information
THE DATABASE APPROACH TO DATA MANAGEMENT
Types of Databases
THE DATABASE APPROACH TO DATA MANAGEMENT
Types of Databases
Entity-Relationship (ER) Diagram◦ Methodology for documenting databases
illustrating relationships between database entities
Normalization◦ Process of creating small stable data structures
from complex groups of data
Designing Databases
CREATING A DATABASE ENVIRONMENT
Designing Databases
CREATING A DATABASE ENVIRONMENT
Designing Databases
CREATING A DATABASE ENVIRONMENT
Designing Databases
7.3 CREATING A DATABASE ENVIRONMENT
Multidimensional Data Analysis
On-line Analytical Processing (OLAP)
Multidimensional data analysis
Supports manipulation and analysis of large volumes of data from multiple dimensions/perspectives
7.4 DATABASE TRENDS
Multidimensional Data Analysis
7.4 DATABASE TRENDS
Data Warehouse
Consolidates current and historical data Supports query tools for management
decision making
Datamining
Tools for finding hidden patterns and relationships in large pools of data
Data Warehouses and Datamining
7.4 DATABASE TRENDS
Data Warehouses and Datamining
7.4 DATABASE TRENDS
Data Warehousing and Datamining
7.4 DATABASE TRENDS
Databases and the Web
The Web and Hypermedia Databases
•Organizes data as network of hyperlinks
•Database Server runs a DBMS to provide data
•Supports text, graphics, sound, video and executable programs
7.4 DATABASE TRENDS
Databases and the Web
7.4 DATABASE TRENDS
Databases and the Web
7.4 DATABASE TRENDS
Databases and the Web
7.4 DATABASE TRENDS
Databases and the Web
7.4 DATABASE TRENDS
A database administrator (short form DBA) is a person responsible for the design, implementation, maintenance and repair of an organization's database. They are also known by the titles Database Coordinator or Database Programmer, and is closely related to the Database Analyst, Database Modeller, Programmer Analyst, and Systems Manager.
The role includes the development and design of database strategies, monitoring and improving database performance and capacity, and planning for future expansion requirements. They may also plan, co-ordinate and implement security measures to safeguard the database.
Employing organizations may require that a database administrator have a certification or degree for database systems (for example, the Microsoft Certified Database Administrator. Some organizations have a hierarchical level of database administrators, generally:
Data Analysts/Query designers Junior DBAs Midlevel DBAs Senior DBAs DBA consultants Manager/Director of Database Administration/Information Technology
DATABASE ADMINISTRATOR
SKILLS: Strong organizational skills Strong logical and analytical thinker Ability to concentrate and pay close attention to detail Ability to think broadly and consider impacts across
systems and within the organizationDUTIES: Transferring Data Replicating Data Maintaining database and ensuring its availability to
users Maintaining the data dictionary Controlling privileges and permissions to database
users Monitoring database performance Database backup and recovery Database security Stop
Skills and Duties of DBA
The Database Analyst's role is to direct, evaluate, review, and manage database resources and services across the organization while ensuring high levels of data quality. This individual is also responsible for developing, implementing, and overseeing database policies and procedures to ensure the integrity and availability of databases and their accompanying software. Where required, the Database Analyst will design, install, monitor, maintain, and performance tune production databases.
DATABASE ANALYST
Database design is the process of producing a detailed data model of a database. This logical data model contains all the needed logical and physical design choices and physical storage parameters needed to generate a design in a Data Definition Language, which can then be used to create a database. A fully attributed data model contains detailed attributes for each entity.
The term database design can be used to describe many different parts of the design of an overall database system. Principally, and most correctly, it can be thought of as the logical design of the base data structures used to store the data. In the relational model these are the tables and views. In an object database the entities and relationships map directly to object classes and named relationships. However, the term database design could also be used to apply to the overall process of designing, not just the base data structures, but also the forms and queries used as part of the overall database application within the database management system (DBMS).[
In a majority of cases, a person who is doing the design of a database is a person with expertise in the area of database design, rather than expertise in the domain from which the data to be stored is drawn e.g. financial information, biological information etc. Therefore the data to be stored in the database must be determined in cooperation with a person who does have expertise in that domain, and who is aware of what data must be stored within the system.
This process is one which is generally considered part of requirements analysis, and requires skill on the part of the database designer to elicit the needed information from those with the domain knowledge. This is because those with the necessary domain knowledge frequently cannot express clearly what their system requirements for the database are as they are unaccustomed to thinking in terms of the discrete data elements which must be stored. Data to be stored can be determined by Requirement Specification.[
DATABASE DESIGNER