Chap 1_Overview of Information System Development Environment.pdf

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IT 352

Information Systems Analysis and
Design
By:
Haifa Alhasson
2020
Brief List of Topics

Overview of Information System development
environment
Managing the Information Systems Project
Identifying and Selecting Systems Development Projects
Initiating and Planning Systems Development Projects
Determine the system requirements
Structuring System Process Requirements
Designing information systems
System Implementation
Maintaining Information Systems
Reference

Modern Systems Analysis
and Design
6th/8th Edition
By Hoffer, George & Valacich, 2012/2017
 Chapter- 1
The Systems Development
Environment
 Learning Objectives

 Define information systems analysis and design.
 Describe the information Systems Development Life Cycle
(SDLC).
 Explain Rapid Application Development (RAD), prototyping,
Computer Aided Software Engineering (CASE), and Service-
Oriented Architecture (SOA).
 Describe agile methodologies and extreme programming.
 Explain Object Oriented Analysis and Design and the Rational
Unified Process (RUP).
 Introduction

 Information Systems Analysis and Design
 Complex organizational process

 Used to develop and maintain
computer- based information systems

 Used by a team of business
and systems professionals

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Introduction (Cont.)

FIGURE 1-1 An organizational approach to systems analysis and
design is driven by methodologies, techniques, and tools

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Technique: are particular process that you as analyst will follow
to help ensure that your work is well through out and clear to
others on your project team.

Methodologies: are comprehensive multiple step approaches to
system development that guide your work and influence the
quality of your final product.

Tools: are typically computer programs that make it easy to use
and benefit from the technique and faithfully follow the guideline
of the overall development methodology.

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 A Modern Approach to Systems Analysis
and Design (Cont.)

Application Software
Computer software designed to support
organizational functions or processes

Systems Analyst
Organizational role most responsible for analysis
and design of information systems

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 Developing Information Systems

 System Development Methodology is
a standard process followed in an organization
to conduct all the steps necessary to
analyze, design, implement, and maintain
information systems.

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 Systems Development Life Cycle (SDLC)

Traditional methodology used to develop, maintain, and
replace information systems.

Phases in SDLC:
 Planning
 Analysis
 Design
 Implementation
 Maintenance
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 Standard and Evolutionary Views of SDLC

FIGURE 1-2
FIGURE 1-3 Evolutionary model
The systems development life cycle

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Systems Development Life Cycle (SDLC) (Cont.)

Planning – An organization’s total information
system needs are identified, analyzed, prioritized, and
arranged

Analysis – System requirements are studied and
structured

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Systems Development Life Cycle (SDLC) (Cont.)

Design – a description of the recommended
solution is converted into logical and then
physical system specifications

Logical design – all functional features of the
system chosen for development in analysis are
described independently of any computer
platform

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Systems Development Life Cycle (SDLC) (Cont.)

Physical Design – the logical specifications or
condition of the system from logical design are
transformed into the technology-specific
details from which all programming and
system construction can be accomplished or
able.

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Systems Development Life Cycle (SDLC) (Cont.)

Implementation – the information system is
coded, tested, installed and supported in the
organization

Maintenance – an information system is
systematically repaired and improved

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The Heart of the Systems Development Process
FIGURE 1-7 FIGURE 1-8
The analysis–design–code–test loop The heart of systems development

Current practice combines analysis, design, and implementation into a single
iterative and parallel process of activities.
 Traditional Waterfall SDLC

One phase begins
when another
completes, with little
backtracking and
looping.

FIGURE 1-9
A traditional waterfall SDLC

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 Problems with Waterfall Approach

 System requirements “locked in” after
being determined (can't change)
 Limited user involvement (only
in requirements phase)
 Too much focus on milestone or
target deadlines of SDLC phases to the
detriment or damage of sound development
practices
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Different Approaches to Improving Development

 CASE Tools
 Rapid Application Development (RAD)
 Agile Methodologies
 eXtreme Programming

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Computer-Aided Software Engineering (CASE) Tools

 Diagramming tools enable or allow graphical
representation.

 Computer displays and report generators help
prototype how systems “look and feel”.

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Computer-Aided Software Engineering
(CASE) Tools (Cont.)

 Analysis tools automatically check
for consistency in diagrams, forms, and
reports.

 A central repository or storehouse
provides integrated storage of diagrams,
reports, and project management
specifications.

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Computer-Aided Software Engineering
(CASE) Tools (Cont.)

 Documentation generators standardize
technical and user documentation.

 Code generators enable automatic
generation of programs and database code
directly from design documents, diagrams,
forms, and reports.

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CASE Tools (Cont.)

FIGURE 1-10
A class diagram from
IBM’s Rational Rose

(Source: IBM)

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CASE Tools (Cont.)

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Rapid Application Development (RAD)
 RAD is an approach to developing information systems that
promises better and cheaper systems and more rapid
development by having system developers and end user work
together jointly in real time develop system.

 Methodology to radically decrease design and implementation
time

 Involves: extensive user involvement, prototyping, Joint
Application Design(JAD)sessions, integrated CASE tools, and
code generators

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Rapid Application Development (RAD) (Cont.)

FIGURE 1-11 RAD life cycle

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 Service-Oriented Architecture (SOA)

 An approach to systems development based on building
complete systems through assembling software components,
each of which model generic business functions

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 Service-Oriented Architecture (SOA)
(Cont.)

FIGURE 1-12 Illustration of a service, a credit check, used by applications and other services

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 Agile Methodologies

Motivated by recognition of software development as
fluid or solution, unpredictable, and dynamic

Three key principles
 Adaptive rather than predictive
 Emphasize people rather than roles
 Self-adaptive processes

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The Agile
Methodologies group
argues that software
development
methodologies
adapted from
engineering generally
do not fit with real-
world software
development.
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 When to use Agile Methodologies

If your project involves:

 Unpredictable or dynamic requirements
 Responsible and motivated developers
 Customerswho understand the process and will
get involved

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 eXtreme Programming

 Short, incremental development cycles
 Automated tests
 Two-person programming teams

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 eXtreme Programming (Cont.)

 Coding and testing operate together

 Advantages:
 Communication between developers
 High level of productivity
 High-quality code

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Object-Oriented Analysis and Design (OOAD)

 Based on objects rather than data or processes

 Object: a structure encapsulating attributes and behaviors of a
real-world entity

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Object-Oriented Analysis and Design (OOAD) (Cont.)

 Object class: a logical grouping of
objects sharing the same attributes and
behaviors

 Inheritance: hierarchical arrangement
of classes enable subclasses to inherit
properties of super classes

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 Rational Unified Process (RUP)
 An object-oriented systems development methodology
 RUP establishes four phase of development: inception,
elaboration, construction, and transition.
 Inception phase analyst define the scope determine the
feasibility of the project understand the user requirements and
prepare a software development plan.
 In elaboration analyst detail user requirements and develop a
base line architecture.
 In construction phase the software actually coded, tested and
documented.
 In transition phase the system is deployed and the user are
trained and supported.
 Each phase is organized into a number of separate iterations.
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FIGURE 1-13 Phases of OOSAD-based development

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Our Approach to Systems Development
 The SDLC is an organizing and guiding principle
in this book.

 We may construct artificial boundaries or
artificially separate activities and processes
for learning purposes.

 Our aim is to help you and you understand all
the pieces and how to assemble them.

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 Summary
In this chapter you learned how to:
 Define information systems analysis and design.
 Describe the information Systems Development Life
Cycle (SDLC).
 Explain Rapid Application Development (RAD), prototyping,
Computer Aided Software Engineering (CASE), and Service-
Oriented Architecture (SOA).
 Describe agile methodologies and eXtreme programming.
 Explain Object Oriented Analysis and Design and the
Rational Unified Process (RUP).

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