Object-Oriented Analysis and Design with UML

Object-Oriented Analysis and Design with UML (Certificate)

Students are provided a pragmatic approach to object-oriented (OO) software development using a widely adapoted methodology (the Unified Process), the latest UML specification (version 1.4), and OO technologies, such as the Java[tm] programming language. This course progresses through: a primer on OO technology and software development methodologies, requirements gathering and analysis (including interviewing stakeholders), system architecture and design, implementation, testing, and deployment. The classroom lectures expose students to other proven OOAD practices, such as class-responsibility- colaboration (CRC) analysis (used to discover the Domain entities) and Robustness analysis (used to move from analysis to design).

Who can benefit?

System architects, software engineers, systems analysts, and designers responsible for the conception and creation of object-oriented software applications.

Pre-requisities

Understand object-oriented concepts and methodology
Demonstrate a general understanding of programming, preferably using the Java[tm] programming language
Understand the fundamentals of the systems development process

Skills Gained?

Describe the object-oriented software development process, including object-oriented methodologies and workflows.
Gather system requirements through interviews with stakeholders.
Analyze system requirements to determine the use cases and domain model of the problem domain (the Requirements model).
Create a system architecture (the Architecture model) supporting the nonfunctional requirements (NFRs) and development constraints.
Create a system design (the Solution model) supporting the functional requirements (FRs).

Course Content

Module 1 - Introducing the Software Development Process

Describe the Object-Oriented Software Development (OOSD) process
Describe how modeling supports the OOSD process
Explain the purpose, activities, and artifacts of the following OOSD workflows: Requirements
Analysis, Architecture, Design, Implementation, Testing, and Deployment

Module 2 - Examining Object-Oriented Technology

Describe how OO principles affect the software development process
Describe the fundamental OO principles

Module 3: Choosing an Object-Oriented Methodology

Explain the best practices for OOSD methodologies
Describe the features of several common methodologies
Choose a methodology that best suits your project

Module 4: Determining the Project Vision

Interview business owners to determine functional requirements of the software system
Analyze interview results to identify NFRs, risks, and constraints
Create a project Vision document from the results of the interviews and risk analysis

Module 5: Gathering the System Requirements

Plan for the process of gathering requirements
Plan for the stakeholder interviews to validate and refine the FRs and NFRs from the Vision
Document the system in the System Requirements Specification (SRS) from all requirements

Module 6: Creating the Initial Use Case Diagram

Identify and describe the essential elements in a UML Use Case diagram
Develop a Use Case diagram for a software system based on the SRS
Record Use Case scenarios for architecturally significant Use Cases

Module 7: Refining the Use Case Diagram

Document a Use Case and its scenarios in a Use Case form
Recognize and document Use Case and Actor inheritance
Recognize and document Use Case dependencies
Identify the essential elements in an Activity diagram
Validate a Use Case with an Activity diagram

Module 8: Determining the Key Abstractions

Identify a set of candidate key abstractions
Identify the key abstractions using CRC analysis

Module 9: Constructing the Problem Domain Model

Identify the essential elements in a UML Class diagram
Construct a Domain model using a Class diagram
Identify the essential elements in a UML Object diagram
Validate the Domain model with one or more Object diagrams

Module 10: Creating the Analysis Model Using Robustness Analysis

Explain the purpose and elements of the Design model
Identify the essential elements of a UML Collaboration diagram
Create a Design model for a use case using Robustness analysis
Identify the essential elements of a UML Sequence diagram
Generate a Sequence diagram view of the Design model

Module 11: Introducing Fundamental Architecture Concepts

Justify the need for the architect role
Distinguish between architecture and design
Describe the SunTone Architecture Methodology

Module 12: Exploring the Architecture Workflow

Describe the Architecture workflow
Describe the diagrams of the key architecture views
Select the Architecture type
Create the Architecture workflow artifacts

Module 13: Creating the Architectural Model for the Client and Presentation Tiers

Explore user interfaces
Document a graphical user interface (GUI) application in the Client tier of the Architecture model
Document a web user interface (Web UI) application in the Presentation tier of the Architecture model

Module 14: Creating the Architectural Model for the Business Tier

Explore distributed object-oriented computing
Document the Business tier in the Architecture model

Module 15: Creating the Architectural Model for the Resource and Integration Tiers

Document the persistence mechanism in the Resource tier of the Architecture model
Document the persistence integration mechanism in the Integration tier of the Architecture model

Module 16: Creating the Solution Model

Create a Solution model for a GUI application
Create a Solution model for a Web UI application

Module 17: Refining the Domain Model

Refine the attributes of the Domain model
Refine the relationships of the Domain model
Refine the methods of the Domain model
Declare the constructors of the Domain model

Module 18: Applying Design Patterns to the Solution Model

Define the essential elements of a software pattern
Describe the Composite pattern
Describe the Strategy pattern
Describe the Observer pattern
Describe the Abstract Factory pattern

Module 19: Modeling Complex Object State Using Statechart Diagrams

Model object state
Describe techniques for programming complex object state

Mastering Object-Oriented Analysis and Design with Unified Modeling Language (OOAD/UML) 2.0 presents the concepts and techniques necessary to effectively use system requirements captured in use cases to drive the development of a robust design model. In this intensive, hands-on workshop, learn to apply UML 2.0 notation to fundamental OOAD concepts, including architecture, objects, classes, components, subsystems, stereotypes, relationships, and supporting diagrams. Use UML throughout the project life-cycle to capture and communicate analysis and design decisions. Thus, you learn UML 2.0 notation in the context of an iterative, use case-driven, architecture-centric process. In addition, language-specific examples of common UML constructs are provided in a separate appendix. Note: There is no visual modeling toolset training incorporated into this methodology course.

Skills Taught

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Apply an iterative, use case-driven, architecture-centric process to the development of a robust design model
Use UML to represent the design model
Apply the concepts of abstraction, encapsulation, inheritance, and polymorphism
Explain the different views of software architecture, the key mechanisms that are defined in support of that architecture, and the effect of the architecture and mechanisms on the produced design
Describe some basic design considerations, including the use of patterns


Course outline

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Best practices of software engineering
Concepts of object orientation
Requirements overview
Analysis and design overview
Architectural analysis
Use-case analysis
Identify design elements
Identify design mechanisms
Describe the run-time architecture
Describe distribution
Use-case design
Subsystem design
Class design
Database design

Upon completion of this course, students should be able to:
Describe the object-oriented software development process, including object-oriented methodologies and workflows.
Gather system requirements through interviews with stakeholders.
Analyze system requirements to determine the use cases and domain model of the problem domain (the Requirements model).
Create a system architecture (the Architecture model) supporting the nonfunctional requirements (NFRs) and development constraints.
Create a system design (the Solution model) supporting the functional requirements (FRs).


Overview
The Object-Oriented Analysis and Design Using UML course effectively combines instruction on the software development processes, object-oriented technologies, and the Unified Modeling Language (UML). This instructor-led course uses lecture, group discussion, and facilitator-led activities (such as analyzing stakeholder interviews) to present one practical, complete, object-oriented analysis and design (OOAD) roadmap from requirements gathering to system deployment.
Students are provided a pragmatic approach to object-oriented (OO) software development using a widely adapoted methodology (the Unified Process), the latest UML specification (version 1.4), and OO technologies, such as the Java(TM) programming language. This course progresses through: a primer on OO technology and software development methodologies, requirements gathering and analysis (including interviewing stakeholders), system architecture and design, implementation, testing, and deployment. The classroom lectures expose students to other proven OOAD practices, such as class-responsibility- colaboration (CRC) analysis (used to discover the Domain entities) and Robustness analysis (used to move from analysis to design).


Who can benefit
Students who can benefit from this course are system architects, software engineers, systems analysts, and designers responsible for the conception and creation of object-oriented software applications.

Prerequisites
To succeed fully in this course, students should be able to:
Understand object-oriented concepts and methodology
Demonstrate a general understanding of programming, preferably using the Java programming language
Understand the fundamentals of the systems development process

Students are provided a pragmatic approach to object-oriented (OO) software development using a widely adapoted methodology (the Unified Process), the latest UML specification (version 1.4), and OO technologies, such as the Java[tm] programming language. This course progresses through: a primer on OO technology and software development methodologies, requirements gathering and analysis (including interviewing stakeholders), system architecture and design, implementation, testing, and deployment. The classroom lectures expose students to other proven OOAD practices, such as class-responsibility- colaboration (CRC) analysis (used to discover the Domain entities) and Robustness analysis (used to move from analysis to design).

Who can benefit? Course Content


Pre-requisities
Understand object-oriented concepts and methodology

Demonstrate a general understanding of programming, preferably using the Java[tm] programming language

Understand the fundamentals of the systems development process


System architects, software engineers, systems analysts, and designers responsible for the conception and creation of object-oriented software applications.

Skills Gained?
Describe the object-oriented software development process, including object-oriented methodologies and workflows.

Gather system requirements through interviews with stakeholders.

Analyze system requirements to determine the use cases and domain model of the problem domain (the Requirements model).

Create a system architecture (the Architecture model) supporting the nonfunctional requirements (NFRs) and development constraints.

Create a system design (the Solution model) supporting the functional requirements (FRs).

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