E-Book, Englisch, Band 1, 312 Seiten, E-Book
Unhelkar Verification and Validation for Quality of UML 2.0 Models
1. Auflage 2005
ISBN: 978-0-471-73431-4
Verlag: John Wiley & Sons
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
E-Book, Englisch, Band 1, 312 Seiten, E-Book
Reihe: Wiley Series in Systems Engineering and Management
ISBN: 978-0-471-73431-4
Verlag: John Wiley & Sons
Format: PDF
Kopierschutz: Adobe DRM (»Systemvoraussetzungen)
A practical approach to enhancing quality in software models usingUML Version 2.0
"Despite its increasing usage, many companies are not taking thebest advantage of UML and, occasionally, individuals haveexperienced frustration in applying its standards. Perhaps this isbecause they have not yet read this book!"
-From the Foreword by Prof. Brian Henderson-Sellers
This book presents a practical checklist approach to enhancing thequality of software models created with the Unified ModelingLanguage (UML) Version 2.0. The foundation for quality is set bythe discussion on the nature and creation of UML models. This isfollowed by a demonstration of how to apply verification andvalidation checks to these models with three foci: syntacticalcorrectness, semantic meaningfulness, and aesthetic symmetry. Thequality work is carried out within three distinct yet relatedmodeling spaces:
* Model of problem space (MOPS)
* Model of solution space (MOSS)
* Model of background space (MOBS)
Readers can then choose a specific quality approach according totheir roles in their projects.
Verification and validation checks are also organized according tothese three modeling spaces, making it easier for the reader tofocus on the appropriate diagrams and quality checks correspondingto their modeling space. In addition, a major element of thispublication is the Strengths, Weaknesses, Objectives, and Traps(SWOT) analysis. This analysis is performed on each UML diagram,enabling readers to fully comprehend these diagrams, theiradvantages and limitations, and the way in which they can be usedin practical projects for modeling.
A consistent case study of the Lucky Insurance System is providedthroughout the chapters to illustrate the creation of good qualityUML diagrams, followed by application of quality checks to them.With its emphasis on quality in UML-based projects, this book is anessential resource for all quality professionals, including qualityanalysts, process consultants, quality managers, test designers,and testers.
Autoren/Hrsg.
Weitere Infos & Material
Figures.
Foreword.
Preface.
Acknowledgments.
Glossary of Acronyms and Terms.
Author Profile.
1 The Quality Strategy for UML.
1.1 Modeling and Quality.
1.2 Positioning UML for Modeling.
1.3 Quality Aspects of UML.
1.4 Understanding Modeling Spaces in Software.
1.5 Modeling Spaces and UML.
1.6 Verification and Validation.
1.7 Quality Checks and Skills Levels.
1.8 Levels of Quality Checks to UML Diagrams.
1.9 Model-Driven Architecture (MDA) and Quality.
1.10 Prototyping and Modeling Spaces.
2 Nature and Basics of UML Diagrams.
2.1 The Nature of UML Diagrams.
2.2 Use Case Diagrams.
2.3 Activity Diagrams.
2.4 Class Diagrams.
2.5 Sequence Diagrams.
2.6 Communication Diagrams.
2.7 Interaction Overview Diagrams.
2.8 Object Diagrams.
2.9 State Machine Diagrams.
2.10 Composite Structure Diagrams.
2.11 Component Diagrams.
2.12 Deployment Diagrams.
2.13 Package Diagrams.
2.14 Timing Diagrams.
2.15 UML's Extensibility Mechanisms.
2.16 UML Meta-Models and Quality.
3 Strengths, Weaknesses, Objectives and Traps (SWOT) of UML Diagrams.
3.1 SWOT Analysis of the UML Diagrams.
3.2 SWOT of Use Case Diagrams.
3.3 SWOT of Activity Diagrams.
3.4 SWOT of Classes and Class Diagrams.
3.5 SWOT of Sequence Diagrams.
3.6 SWOT of Communication Diagrams.
3.7 SWOT of Interaction Overview Diagrams.
3.8 SWOT of Object Diagrams.
3.9 SWOT of State Machine Diagrams.
3.10 SWOT of Composite Structure Diagrams.
3.11 SWOT of Component Diagrams.
3.12 SWOT of Deployment Diagrams.
3.13 SWOT of Package Diagrams.
3.14 SWOT of Timing Diagrams.
4 V&V of the Quality of MOPS.
4.1 UML Diagrams in MOPS.
4.2 V&V of Use Cases and Use Case Diagrams in MOPS.
4.3 Quality of Activity Diagrams in MOPS.
4.4 Quality of Package Diagrams in MOPS.
4.5 Quality of Classes and Class Diagrams in MOPS.
4.6 Quality of Sequence Diagrams in MOPS.
4.7 Quality of State Machine Diagrams in MOPS.
4.8 Quality of Interaction Overview Diagrams in MOPS.
4.9 Validating the Entire MOPS.
4.10 Summary of Quality Checks for MOPS.
5 V&V of the Quality of MOSS.
5.1 UML Diagrams in the Solution Space (MOSS).
5.2 Analyzing MOPS for MOSS for a Solution.
5.3 Quality of Classes and Class Diagrams in MOSS.
5.4 Quality of Sequence Diagrams in MOSS.
5.5 Quality of Communication Diagrams in MOSS.
5.6 Quality of Object Diagrams in MOSS.
5.7 Quality of State Machine Diagrams in MOSS.
5.8 Quality of Timing Diagrams in MOSS.
5.9 Converting Models into Systems.
5.10 Cross-Diagram Dependencies.
6 V&V of the Quality of MOBS.
6.1 Working in the Background Space.
6.2 UML Diagrams in the Background Space (MOBS).
6.3 V&V of Package Diagrams in MOBS.
6.4 Classes and Class Diagrams in the Background Space.
6.5 V&V of Class Diagrams in the Background Space.
6.6 V&V of Robustness through Class Diagrams in MOBS.
6.7 V&V of Component Diagrams in MOBS.
6.8 V&V of Composite Structure Diagrams in MOBS.
6.9 V&V of Deployment Diagrams in MOBS.
6.10 Cross-diagram dependencies in MOBS.
7 Managing the V&V Process.
7.1 Processes and UML.
7.2 Understanding the Process and Process Components.
7.3 Iterations and Increments in a Process.
Appendix A: LUCKY Insurance Case Study.
Appendix B: UML CASE Tools.
Appendix C: Summary of Checks for V&V of the Quality of MOPS.
Appendix D: Summary of Checks for V&V of the Quality of MOSS.
Appendix E: Summary of Checks for V&V of the Quality of MOBS.
Appendix F: Templates for Actors, Use Cases and Classes in MOPS.
Index.
