Major Topics

1. Major Topics • Information systems • Integrating New Technology • Phases of analysis and design • System maintenance • CASE tools

2. Information • Information is an organizational resource which must be managed as carefully as other resources • Costs are associated with information processing • Information processing must be managed to take full advantage of its potential

3. Categories • Eight categories of Information systems: • Transaction processing systems (TPS) • Office automation systems (OAS) • Knowledge work systems (KWS) • Management information systems (MIS) • Decision support systems (DSS) • Expert systems (ES) • Group decision support systems (GDSS) • Executive support systems (EES)

4. Level of Categories Figure 1.1 :The computer analyst may be involved with any of or all these systems

5. Transaction Processing Systems (TPS) • TPS are computerized information systems developed to process large amount of data for routine business transactions • TPS reduces the time once required to perform the task manually • TPS permits the organization to interact with external environment • Example: Inventory or Payroll system

6. Office Automation Systems (OAS) and Knowledge Work Systems (KWS) • Office Automation Systems (OAS): • Includes analysis of information so as to transform data or manipulate it in some way before sharing or formally disseminating it • Example: Word processing, spreadsheets, desktop publishing, electronic scheduling, communication through voice email, email and voice conference etc. • Knowledge Work Systems (KWS): • Supports professionals (scientists, engineers, doctors) by aiding them to create new knowledge • Example: Scientific analysis

7. Management Information Systems (MIS) • MIS supports broader spectrum of organizational tasks than TPS, including decision analysis and decision making • MIS users share a common database to access information • MIS outputs information that is used in decision making • Example: Account management system of Internet users

8. Decision Support systems (DSS) • DSS is similar to the traditional MIS because they both depend on a database as a source of data • Again, DSS departs from MIS in that DSS emphasizes the support of decision making in all its phases • Example: Production increase decision by trend analysis

9. Expert Systems • Expert system is a very special class of information system which is capable of generating solutions to problems with the aid of Artificial Intelligence (AI) • An expert system (also called a knowledge based system) uses the knowledge of an expert for solving a particular problem • Example: News Categorization software

10. Group Decision Support Systems (GDSS) and Computer Supported Collaborative Work Systems (CSCWS) • Group Decision Support Systems • GDSS are intended to bring a group together to solve a problem with the help of various support such as polling, questionnaires, brainstorming etc. • Computer Supported Collaborative Work Systems • CDCWS is a more general term of GDSS • CSCWS may include software support called “groupware” for team collaboration via network computers • Example: video conferencing and web survey system

11. Executive Support Systems (ESS) • It helps executives to make decisions on strategic level • It may provide graphical representation and communication support at board meeting required to make strategic decision • Example: New product launching decision

12. Integrating New Technologies • New technologies are being integrated into traditional systems • E-commerce uses the Web to perform business activities • Enterprise Resource Planning (ERP) has the goal of integrating many different information systems within the corporation • Wireless and handheld devices, including mobile commerce (m-commerce) • Open source software

13. Integrating New Technologies Figure 1.2: Integrating Technologies

14. E-Commerce Application and Web Systems Many businesses has found The Internet as their most favored way to pursue business growth because of the following advantages: • Increase awareness of the availability of the service, product, industry, person, or group • 24-hour access for users • Standardizing the design of interface • Creating a global system rather than remain local

15. Enterprise Resource Planning (ERP) Systems • Many organizations predicts potential benefits from the integration of many information systems existing on different management levels. • ERP systems are designed to perform this integration • Example: SAP, PeopleSoft and packages from Oracle

16. Systems for Wireless and Handheld Devices • System analyst may be asked to design standard or wireless communication network that integrate voice, video and email into organizational intranet • System analyst may also be asked to develop intelligent agents to assist the user of PDA or cell phone • Wireless communication is referred as m-commerce (mobile commerce)

17. Open Source Software • An alternative of traditional software development (where proprietary code is hidden from the users) is called open source software • Open source software is free to distribute, share and modify its source code • It makes money by providing services, customized program and support. • Open source software are widely used in handheld and mobile devices. • Example: Linux Operating System Apache Web Server

18. Nature of Analysis and Design • A systematic approach to: • identify problems, opportunities, and objectives; • analyze the information flows in organizations; and • design computerized information systems to solve a problem.

19. Systems Analyst • Systems analysts act as: • Outside consultants to businesses • Supporting experts within a business • Change agents • Analysts are problem solvers, and require communication skills • Analysts must be ethical with users and customers

20. Systems Development Life Cycle (SDLC): • SDLC is a systematic approach for solving business problems. • It is divided into seven phases. • Although each phase is presented discretely, it is never accomplished as a separate step. Instead separate activity can occur simultaneously

21. Systems Development Life Cycle (SDLC): Figure 1.3: Phases of SDLC

22. Phase 1: Identifying Problems, Opportunities and Objectives • Personnel involved: • Analyst • User management • System management • Activities: • Interviewing user management • Summarizing the knowledge obtained • Estimating the scope of the project • Documenting the results • Output: Feasibility report containing problem definition and objectives • Decision: Management then make decision whether to proceed with the proposal or not

23. Phase 2: Determining Information Requirement • Personnel Involved: • Information Analyst (IA) • User: operation managers and operation workers • Systems management • Activity: • Interview management, operations personnel • Gather systems/operating documents • Use questionnaires • Observe the system and personnel involved • Learn the who, what, where, when, and how, and the why for each of these • Output: Analyst understands how the business functions and gets enough information about the people, goals, data and procedure involved

24. Phase 3: Analyzing System Needs • Personnel Involved: • Analyst (IA) • User management • Systems management • Activity: • Create data flow diagrams • Document procedural logic for data flow diagram processes • Complete the data dictionary • Make semi-structured decisions (condition alternatives) • Prepare and present the system proposal • Recommend the optimal solution to management

25. Phase 4: Designing the Recommended System • Personnel involved • Analyst • System designer • User: operation managers and operation workers • System management • Activity: • Design the user interface • Design output • Design input • Design system controls • Design files and/or database • Produce program specifications • Produce decision trees or tables • Backup procedure

26. Phase 5: Developing and Documenting Software • Personnel involved • Analyst • System designer • Programmers • Systems management • Activity: • System analyst designs computer programs using structure charts, and pseudo code etc. • Programmers write computer programs • Document software with help files, procedure manuals, and Web sites with Frequently Asked Questions

27. Phase 6: Testing and Maintaining the System • Personnel involved • Analyst • System designer • Programmers • Systems management • Activity: • Test and debug computer programs • Test the computer system • Enhance system • Maintenance of the system begins from this phase

28. Phase 7: Implementing and Evaluating the System • Personnel involved: • Analyst • System designer • Programmers • User: operation managers and operation workers • Systems management • Activity: • Train users • Analyst plans smooth conversion from old system to new system • Purchase and install new equipment • Install system • Review and evaluate system

29. Maintenance • Maintenance is performed for 2 reasons: • System maintenance • Removing undetected errors, and • Enhancing existing software • Systems are enhanced for the following reasons: • Adding additional features to the system • Business and governmental requirements change over time • Technology, hardware, and software are rapidly changing

30. Impact of Maintenance Figure 1.4: Time spent on system maintenance

31. Impact of Maintenance Figure 1.5: Resource consumption over the system life

32. CASE Tools • CASE tools are automated, microcomputer-based software packages for systems analysis and design • Four reasons for using CASE tools are: • To increase analyst productivity • Facilitate communication among analysts and users • Providing continuity and integrity among life cycle phases • To assess the maintenance changes

33. CASE Tool Categories • CASE tools may be divided into several categories • Upper CASE (also called front-end CASE) tools, used to perform analysis and design • Lower CASE (also called back-end CASE). These tools generate computer language source code from CASE design. • Integrated CASE, performing both upper and lower CASE functions.

34. Upper CASE • Upper CASE tools • Create and modify the system design • Store data in a project repository • The repository is a collection of records, elements, diagrams, screens, reports, and other project information • These CASE tools model organizational requirements and define system boundaries

35. Upper Case Figure 1.6: The repository concept

36. Lower CASE • Lower CASE tools generate computer source code from the CASE design • Source code may usually be generated in several languages • Advantages of generation code: • decrease development time • More programming language support • Free from program coding error

37. Traditional VS Case system development life cycle Figure 1.7: Traditional VS Case SDLC

38. Reverse Engineering • Reverse engineering is generating the CASE design from computer program code • Source code is examined, analyzed, and converted into repository entities

39. Advantages of Reverse Engineering • Reduced system maintenance time, freeing up time for new development • Program documentation is produced for loosely documented programs • Structured programs may be generated from unstructured, older programs • Future system maintenance is easier to implement • Unused portions of programs may be eliminated

40. Object-Oriented Analysis and Design • Object-oriented (O-O) analysis and design is used to build object-oriented programs • This includes not only data but the instructions about operations that manipulate the data

41. Alternative Methodologies Alternatives to SDLC: • Prototyping • ETHICS • Soft System Methodology • Multiview 1.41