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ENVIRONMENT MODELING-BASED REQUIREMENTS ENGINEERING FOR SOFTWARE INTENSIVE SYSTEMS
Título:
ENVIRONMENT MODELING-BASED REQUIREMENTS ENGINEERING FOR SOFTWARE INTENSIVE SYSTEMS
Subtítulo:
Autor:
JIN, Z
Editorial:
ACADEMIC PRESS
Año de edición:
2018
ISBN:
978-0-12-801954-2
Páginas:
288
61,50 € -10,0% 55,35 €

 

Sinopsis

Description
Environment Modeling-Based Requirements Engineering for Software Intensive Systems provides a new and promising approach for engineering the requirements of software-intensive systems, presenting a systematic, promising approach to identifying, clarifying, modeling, deriving, and validating the requirements of software-intensive systems from well-modeled environment simulations. In addition, the book presents a new view of software capability, i.e. the effect-based software capability in terms of environment modeling.

Key Features
Provides novel and systematic methodologies for engineering the requirements of software-intensive systems
Describes ontologies and easily-understandable notations for modeling software-intensive systems
Analyzes the functional and non-functional requirements based on the properties of the software surroundings
Provides an essential, practical guide and formalization tools for the task of identifying the requirements of software-intensive systems
Gives system analysts and requirements engineers insight into how to recognize and structure the problems of developing software-intensive systems
Readership
Requirements engineering researchers. It can also be used as reference for graduate students and researchers, industrial practitioners in knowledge engineering, software engineering, and project management

Table of Contents
1. Preface
2. Requirements Engineering: State of Art
3. Software Intensive Systems and the Challenges to Requirements Engineering
4. Principles, Conceptual Framework and Process
5. Environment Modelling and System Requirements Identification
6. Software Functionality Identification and Specification
7. Environment Related Non-functional Properties Analysis
8. Concern about Self-adaptation
9. Conclusion
10. Index