Description
Advanced Software Engineering.
Features
Table Of Contents
(NOTE: Each part concludes with a Summary.)
I. COMPONENT DEFINITON.
1. Definition of Software Component and its Elements.
2. The Component Industry Metaphor.
3. Component Models and Component Services: Concepts and Principles.
4. An Example Specification for Implementing a Temperature Regulator Software Component.
George T. Heineman, William T. Councill.
2. The Component Industry Metaphor.
Hedley Apperly.
3. Component Models and Component Services: Concepts and Principles.
Rainer Weinreich, Johannes Sametinger.
4. An Example Specification for Implementing a Temperature Regulator Software Component.
Janet Flynt, Jason Mauldin.
II. THE CASE FOR COMPONENTS.
5. The Business Case for Software Components.
6. COTS Myths and Other Lessons Learned in Component-Based Software Development.
7. Roles for Component-Based Development.
8. Common High Risk Mistakes in Component-Based Software Engineering.
9. CBSE Success Factors: Integrating Architecture, Process, and Organization.
John Williams.
6. COTS Myths and Other Lessons Learned in Component-Based Software Development.
Will Tracz.
7. Roles for Component-Based Development.
Paul Allen.
8. Common High Risk Mistakes in Component-Based Software Engineering.
Wojtek Kozaczynski.
9. CBSE Success Factors: Integrating Architecture, Process, and Organization.
Martin L. Griss.
III. SOFTWARE ENGINEERING PRACTICES.
10. The Practice of Software Engineering.
11. From Subroutines to Subsystems: Component-Based Software Development.
12. Status of CBSE in Europe.
13. CBSE in Japan and Asia.
George T. Heineman.
11. From Subroutines to Subsystems: Component-Based Software Development.
Paul C. Clements.
12. Status of CBSE in Europe.
Barry McGibbon.
13. CBSE in Japan and Asia.
Mikio Aoyama.
IV. THE DESIGN OF SOFTWARE COMPONENT INFRASTRUCTURES.
14. Software Components and the UML.
15. Component Infrastructures: Placing Software Components in Context.
16. Business Components.
17. Components and Connectors: Catalysis Techniques for Defining Component Infrastructures.
18. An Open Process for Component-Based Development.
19. Designing Models of Modularity and Integration.
Kelli Houston, Davyd Norris.
15. Component Infrastructures: Placing Software Components in Context.
Steve Latchem.
16. Business Components.
James Carey, Brent Carlson.
17. Components and Connectors: Catalysis Techniques for Defining Component Infrastructures.
Alan Cameron Wills.
18. An Open Process for Component-Based Development.
Brian Henderson-Sellers.
19. Designing Models of Modularity and Integration.
Kevin J. Sullivan.
V. FROM SOFTWARE COMPONENT INFRASTRUCTURES TO SOFTWARE SYSTEMS.
20. Software Architecture.
21. Software Architecture Design Principles.
22. Product-Line Architectures.
Alexander L. Wolf, Judith A. Stafford.
21. Software Architecture Design Principles.
Len Bass.
22. Product-Line Architectures.
Martin L. Griss.
VI. THE MANAGEMENT OF COMPONENT-BASED SOFTWARE SYSTEMS.
23. Measurement and Metrics for Software Components.
24. The Practical Reuse of Software Components.
25. Selecting the Right COTS Software: Why Requirements are Important.
26. Build vs. Buy: A Rebuttal.
27. Software Component Project Management Processes.
28. The Trouble with Testing Software Components.
29. Configuration Management and Component Libraries.
30. The Evolution, Maintenance and Manageme
Jeffrey Poulin.
24. The Practical Reuse of Software Components.
Don Reifer.
25. Selecting the Right COTS Software: Why Requirements are Important.
Cornelius Ncube, N.A.M. Maiden.
26. Build vs. Buy: A Rebuttal.
George T. Heineman.
27. Software Component Project Management Processes.
William T. Councill.
28. The Trouble with Testing Software Components.
Elaine Weyuker.
29. Configuration Management and Component Libraries.
Hedley Apperly.
30. The Evolution, Maintenance and Manageme