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Chapter 14

Chapter 14. Building Information Systems. Learning Objectives. Explain the concept of a systems development life cycle (SDLC) Compare and contrast prototyping, rapid application development (RAD), joint application design (JAD), and traditional SDLC approaches to systems development

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Chapter 14

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  1. Chapter 14 Building Information Systems

  2. Learning Objectives • Explain the concept of a systems development life cycle (SDLC) • Compare and contrast prototyping, rapid application development (RAD), joint application design (JAD), and traditional SDLC approaches to systems development • Identify advantages and disadvantages of object-oriented (OO) development • Describe component-based development • Evaluate alternatives to in-house systems development • Discuss the major strategies, methods, and tools for building e-commerce applications • Identify advantages and disadvantages of CASE tools • Describe alternative approaches to software process quality improvement

  3. Case: Snap-On Sets up an EC Site Problem: • Snap-On, a tool and equipment maker in Washington state wanted to set up an e-commerce site and went for the in-houseoption. Solution: • Snap-On hired application service provider (ASP) OnLink Technologies to implement a catalog for the company's e-commerce site. Results: • The creation of an in-house ASP consulting service for Snap-On. • Skill transferring to other departments and subsidiaries that want to put up catalogs on their own Web sites.

  4. Systems Development Life Cycle • SDLC represents a set of general categories that show the major steps, over time, of an information systems development project. • There is no universal, standardized version of the SDLC, but the phrase has two distinct meanings. • An SDLC can be a generalconceptualframework for all the activities involved in systems development or acquisition. • An SDLC can also be a very structured and formalized design and development process.

  5. An Eight-Stage SDLC

  6. Stages 1 & 2 • Stage 1: Project Initiation • Stage 2: Systems Analysis & Feasibility Studies • Systems Analysis- the investigation of the existing situation. • Feasibility Studies- the major areas of feasibility investigation are; • Technology • Economics • Organizational factors • Legal, ethical, and other constraints

  7. Stages 3 & 4 • Stage 3: Logical Analysis and Design • Systems analysts determine 2 major aspects of the system: • what it needs to do • how it will accomplish these functions. • Logical Design – the design of an IS from the user’s point of view. • Physical Design -translates the abstract logical model into the specific technical design (the “blueprints”) • Stage 4: Actual Acquisition or Development • The logical design of the new system guides the actual development or acquisition

  8. Stages 5 & 6 • Stage 5: Implementation • Approaches to conversion from a previous system include: • Parallel conversion • Direct cutover • Pilot conversion • Phased (or modular) conversion • Stage 6: Operation • After a successful conversion, the system will operate for an indefinite period of time.

  9. Stages 7 & 8 • Stage 7: Post-audit Evaluation • An organization should evaluate all its larger system projects after their completion. • These post-audits introduce an additional element of discipline into the development process. • Stage 8: Maintenance • Every system needs two kinds of maintenance: • Fixing bugs • Updating systems to accommodate changes in the environment

  10. Implementing SDLCs IS groups considering the implementation of a formal SDLC methodology should look for the following characteristics: • Minimal overhead • Flexibility and responsiveness • Concurrent tasks • Focused analysis

  11. Alternatives to Conventional SDLCs Four Possibilities: • Prototyping • Joint application design • Rapid application development • Object-oriented development

  12. Prototyping • Instead of spending a lot of time producing very detailed specifications, the developers find out only what the users want. • Developers quickly create a prototype. • This contains portions of the system of most interest to the users, or is a small-scale working model of the entire system. • After reviewing the prototype with the users, the developers refine & extend it. • This approach is also known as evolutionary development.

  13. Joint Application Design • Joint application design (JAD) is a group-based method for collecting user requirements and creating system designs. • JAD is most often used within the systems analysis and systems design stages of the SDLC. • In contrast to the SDLC requirements analysis, JAD has a group meeting in which all users meet simultaneously with analysts. • An electronic JAD session can be conducted offsite/online with technology support. • JAD may not be an easy task for Web site design since in some cases the stakeholders may be outside of an organization.

  14. Rapid application development (RAD)methodologies and tools make it possible to develop systems faster, especially systems where the user interface is an important component. E.g., Blue Cross & Blue Shield Develop an award-winning application using RAD. Typical RAD packages include the following: GUI development environment Reusable components Code generator Programming language Rapid Application Development

  15. Rapid Application Development

  16. Object-Oriented Development • An object-oriented (OO) system begins not with the task to be performed, but with the aspects of the real world that must be modeled to perform that task. • Object technology enables the development of purchasable, sharable, and reusable information assets (objects) existing in a worldwide network of interorganizational information systems. • The techniques and notations that are incorporated into a standard object-oriented language are called unified modeling language or UML. • The object-oriented approach is ideal for developing Web applications.

  17. Component-based Development • Componentsare self-contained packages of functionality that have clearly defined, open interfaces with high-level application services. • E.g., interface icons (small), online ordering (a business component) • Components can be distributed dynamically for reuse across multiple applications and heterogeneous computing platforms. • The major reasons for using components-based development are: • Code reusability, which make programming faster, with fewer errors. • Support for heterogeneous computing infrastructure and platforms. • Rapid assembly of new business applications • Ability of an application to scale.

  18. Many organizations are using approaches that shift the construction task from the IS department to others. Of the various ways of doing this, three are most common: Let users build their own systems Outsource the entire systems development process Let end-users and/or the ISD use packages Systems Developed Outside the ISD

  19. Increasingly powerful desktop hardware Declining hardware costs Increasingly diverse software capabilities Increasingly computer-literate population Backlog of IS projects Development speed Business orientation Small applications Control Apparent cost savings Trends Favoring End-User Development The following list presents existing factors that lead to higher levels of end-user development:.

  20. Firms that provide outsourcing cite numerous benefits: Hardware economies of scale Staffing economies of scale Specialization Tax benefits Outsourcing can also create problems for companies: Limited economies of scale Staffing Lack of business expertise Contract problems Internal cost reduction opportunities Outsourcing

  21. External Acquisition of Software • The choice between developing software in-house and purchasing existing software is called the make-or-buy decision. • The initial cost of off-the-shelf software is often lower and the software should be of high quality, because many customers have used and helped debug it. • However, buying off-the-shelf software may mean that an organization has to pay for features and functions that are not needed.

  22. The most prominent advantages of buying off-the-shelf software are: On-time On-budget Full functionality The following outcomes are also important: User acceptance Favorable costs-to-benefits ratio Low maintenance Scalability Integration with other systems Minimal negative cross-impacts Reusability External Acquisition of Software

  23. Managerial Considerations • The traditional SDLC approach often works well for large projects with well-defined requirements, where there is not a lot of time pressure. • Prototyping requires effective management to make sure that the iterations of prototyping do not continue indefinitely. • RAD may be less appropriate than conventional programming languages for larger projects, or those with a lot of real-time processing. • JAD is easy for senior management to understand, yet it is difficult and expensive to get all people in the same place at the same time.

  24. Managerial Considerations • Object-Oriented development is becoming increasingly popular, but usage is limited by a shortage of personnel with OO skills. • A component-based application architecture provides several business benefits, but the execution of component-based developmentrequires special training and skill. • End-user development is also a possibility for larger projects whose priorities are not high enough to lead to a timely response from the central IS unit. • Outsourcing should always be considered by large and complex systems with a significant risk of failure, yet the disadvantages should be reviewed carefully.

  25. The Development of EC Applications

  26. The Development of EC Applications Step 1: System Analysis Step 2: Select a Development Option Step 3: Installation, Connection, and More Step 4: Deployment Step 5: Operation and Maintenance

  27. Development Strategies for EC Applications • Buy the EC Applications • The following are the major criteria for consideration in buying e-commerce applications: • The functionalities of development packages & criteria of choice • User-friendliness • Information requirements • Hardware and software resources • Installation • Maintenance services • Security • Vendor quality • Cost

  28. Development Strategies for EC Applications 2.Lease the EC Applications Leasing is advantageous in cases where extensive maintenance is required, or where the cost of buying is very high. Two ways to lease: Lease the application from an outsourcer and install it on the company’s premises. Lease from either an application service provider or a CSP. 3. Develop EC Applications In House: Insourcing • Build from scratch. • Build from components. • Enterprise application integration.

  29. Other Development Options • Join An E-Marketplace • Join An Auction or Reverse Auction Third-Party Site • Joint Ventures • Join a Consortium • Hybrid Approach

  30. Application Service Provider • An Application service provider (ASP) is an agent who assembles functionality needed by enterprises, and packages it with outsourced development, operation, maintenance, and other services. • The essential difference between an ASP and an outsourcer is that an ASP will manage application servers in a centrally controlled location, rather than on a customer’s site.

  31. Benefits & Risks of ASP Leasing

  32. Track record Scope of service Application & data storage Support services Integration Database format & portability Criteria for Selecting an ASP Vendor

  33. Java Programming Language • Java has established itself as the most important programming language for putting extra features into Web pages. • Java is an object-oriented language. • The Java Web page programs, called applets,need to be relatively small to avoid delays in transmitting them over the Internet. • Prototyping is probably the most suitable approach for developing Java applets.

  34. CASE Tools • Computer-aided software engineering (CASE) tools are marketed as individual items or in a set (toolkit) that automates various aspects of the development process. • CASE can be used in two different ways: • To automate certain SDLC activities on a piecemeal basis. • To provide an integrated (I-CASE) package for IS groups. • The relatively high turnover rate among systems personnel creates problems for use of I-CASE systems as new employees will need to take the time to learn the integrated package.

  35. Contract review Purchaser’s requirements specification Development planning Quality planning Design and implementation Testing and validation Acceptance Replication, delivery, and installation Maintenance Software Quality • The International Organization for Standardization (ISO) first published its quality standards in 1987, and then republished an updated version in 2000. • The ISO allows organizations to use any SDLC that includes the following:

  36. Project Planning • Project planning provides an overall framework with which the systems development life cycle can be planned, scheduled, and controlled. • Milestones,or checkpoints, are established to allow a periodic review of progress.

  37. Project Planning • Critical Path Method (CPM), PERT, and Gantt Charts. •  These generic project management tools are suitable for systems development projects. • Project Properties and Priorities • The following five properties most significantly influence the overall nature of an IT project: • Predefined structure • Stability of technology • Size • User proficiency • Developer proficiency

  38. Building interorganizational and international information systems can be very complicated. Importance.Functional managers must participate in the development process and should understand all the phases. Ethical and legal issues.Developing systems across organizations and countries could result in problems in any phase of system development. Managerial Issues

  39. User involvement is important. Traditional approaches vs. prototyping. Tool use by developers. Quality assurance vs. schedules. Behavior problems. Perpetual development. Managerial Issues

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