Synopses & Reviews
Proven Software & Systems Requirements Engineering Techniques
Requirements engineering is a discipline used primarily for large and complex applications. It is more formal than normal methods of gathering requirements, and this formality is needed for many large applications. The authors are experienced requirements engineers, and this book is a good compendium of sound advice based on practical experience. --Capers Jones, Chief Scientist Emeritus, Software Productivity Research
Deliver feature-rich products faster, cheaper, and more reliably using state-of-the-art SSRE methods and modeling procedures. Written by global experts, Software & Systems Requirements Engineering: In Practice explains how to effectively manage project objectives and user needs across the entire development lifecycle. Gather functional and quality attribute requirements, work with models, perform system tests, and verify compliance. You will also learn how to mitigate risks, avoid requirements creep, and sidestep the pitfalls associated with large, complex projects.Define and prioritize customer expectations using taxonomiesElicit and analyze functional and quality attribute requirementsDevelop artifact models, meta-models, and prototypesManage platform and product line development requirementsDerive and generate test cases from UML activity diagramsDeploy validation, verification, and rapid development proceduresHandle RE for globally distributed software and system development projects Perform hazard analysis, risk assessment, and threat modeling
Synopsis
Requirements engineering strategies for globally distributed software development projects
Using proven techniques from the global experts at Siemens, the largest software systems development company in the world, this book helps you ensure the success of software development projects, regardless of size and number of features.
Software Systems Requirements Engineering provides practical methods and best practices for requirements engineers with coverage of managing scale, metrics, Project Management, quality assurance, and the latest RE technologies. A global case study is included in each chapter.
Synopsis
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Proven Software & Systems Requirements Engineering Techniques
"Requirements engineering is a discipline used primarily for large and complex applications. It is more formal than normal methods of gathering requirements, and this formality is needed for many large applications. The authors are experienced requirements engineers, and this book is a good compendium of sound advice based on practical experience." --Capers Jones, Chief Scientist Emeritus, Software Productivity Research
Deliver feature-rich products faster, cheaper, and more reliably using state-of-the-art SSRE methods and modeling procedures. Written by global experts, Software & Systems Requirements Engineering: In Practice explains how to effectively manage project objectives and user needs across the entire development lifecycle. Gather functional and quality attribute requirements, work with models, perform system tests, and verify compliance. You will also learn how to mitigate risks, avoid requirements creep, and sidestep the pitfalls associated with large, complex projects.
- Define and prioritize customer expectations using taxonomies
- Elicit and analyze functional and quality attribute requirements
- Develop artifact models, meta-models, and prototypes
- Manage platform and product line development requirements
- Derive and generate test cases from UML activity diagrams
- Deploy validation, verification, and rapid development procedures
- Handle RE for globally distributed software and system development projects
- Perform hazard analysis, risk assessment, and threat modeling
Table of Contents
Chapter 1 Introduction to RE
Chapter 2 Requirements Artifact Model for Requirements Engineering
Chapter 3 Gathering Requirements
Chapter 4 Modeling Functional Requirements
Chapter 5 Non-Functional Requirements
Chapter 6 RE for Platforms
Chapter 7 Requirements Management
Chapter 8 Requirements-Driven System Testing
Chapter 9 Rapid Development Techniques for Requirements Evolution
Chapter 10 Distributed Requirements Engineering
Chapter 11 Hazard Analysis 7 Threat Modeling
Chapter 12 Conclusions