Designing Software Intensive Systems Methods and Principles 1st Edition by Pierre Tiako ISBN 1599046997 978-1599046990
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ISBN 10: 1599046997
ISBN 13: 978-1599046990
Author: Pierre F. Tiako
Design for software-intensive systems requires adequate methodology and tool support in order for researchers and practitioners to make use of and develop very large and complex systems. Software engineering environments help reduce the design costs of very large and intricate software systems while improving the quality of the software produced. Designing Software-Intensive Systems: Methods and Principles addresses the complex issues associated with software engineering environment capabilities for designing real-time embedded software systems. This groundbreaking work provides relevant theoretical foundations, principles, methodologies, frameworks, and the latest research findings in the field to deliver a superior knowledge base for those in computer science, software engineering, and fields alike.
Table of contents:
Chapter I
Differentiated Process Support for Large Software Projects
Alf Inge Wang, Norwegian University of Science and Technology, Norway
Carl-Fredrik Sørensen, Norwegian University of Science and Technology, Norway
Chapter II
Modeling Techniques for Software-Intensive Systems
Holger Giese, University of Potsdam, Germany
Stefan Henkler, University of Potsdam, Germany
Martin Hirsch, University of Potsdam, Germany
Vladimir Rubin, University of Potsdam, Germany
Matthias Tichy, University of Potsdam, Germany
Chapter III
Service Orientation and Software-Intensive Systems
Jaroslav Král, Charles University, Czech Republic
Michal Zemlička, Charles University, Czech Republic
Section II
Requirements, Changes, and Traceability
Chapter IV
From Scenarios to Requirements in Mobile Client-Server Systems
Alf Inge Wang, Norwegian University of Science and Technology, Norway
Carl-Fredrik Sørensen, Norwegian University of Science and Technology, Norway
Hien Nam Le, Norwegian University of Science and Technology, Norway
Heri Ramampiaro, Norwegian University of Science and Technology, Norway
Mads Nygård, Norwegian University of Science and Technology, Norway
Reidar Conradi, Norwegian University of Science and Technology, Norway
Chapter V
Evolution in Model-Driven Software Product-Line Architectures
Gan Deng, Vanderbilt University, USA
Douglas C. Schmidt, Vanderbilt University, USA
Aniruddha Gokhale, Vanderbilt University, USA
Jeff Gray, University of Alabama at Birmingham, USA
Yuehua Lin, University of Alabama at Birmingham, USA
Gunther Lenz, Microsoft, USA
Chapter VI
Traceability in Model-Driven Software Development
Ståle Walderhaug, SINTEF ICT, Norway & University of Tromsø, Norway
Erlend Stav, SINTEF ICT, Norway
Ulrik Johansen, SINTEF ICT, Norway
Gøran K. Olsen, SINTEF ICT, Norway
Section III
Software Architectures and Architectural Alternatives
Chapter VII
Choosing Basic Architectural Alternatives
Gerhard Chroust, J. Kepler University Linz, Austria
Erwin Schoitsch, Austrian Research Centers (ARC), Austria
Chapter VIII
Architecting Virtual Reality Systems
Rafael Capilla, Universidad Rey Juan Carlos, Spain
Margarita Martínez, Universidad Rey Juan Carlos, Spain
Francisco Nava, Universidad Rey Juan Carlos, Spain
Cristina Muñoz, Universidad Politécnica de Madrid, Spain
Chapter IX
A Survey of Software Architecture Approaches
Kendra M. L. Cooper, The University of Texas at Dallas, USA
Lirong Dai, Seattle University, USA
Renee Steiner, Intervoice, Inc., USA
Rym Zalila Mili, The University of Texas at Dallas, USA
Section IV
Analysis, Evaluation, and Optimization
Chapter X
Dynamic Analysis and Profiling of Multithreaded Systems
Daniel G. Waddington, Lockheed Martin, USA
Nilabja Roy, Vanderbilt University, USA
Douglas C. Schmidt, Vanderbilt University, USA
Chapter XI
Evaluating Quality of Service for Enterprise Distributed Systems
James H. Hill, Vanderbilt University, USA
Douglas C. Schmidt, Vanderbilt University, USA
John M. Slaby, Raytheon Integrated Defense Systems, USA
Chapter XII
Reducing the Complexity of Modeling Large Software Systems
Jules White, Vanderbilt University, USA
Douglas C. Schmidt, Vanderbilt University, USA
Andrey Nechypurenko, Siemens AG, Germany
Egon Wuchner, Siemens AG, Germany
Section V
Best Practices and Integrations
Chapter XIII
A Domain-Specific Language for Describing Grid Applications
Enis Afgan, University of Alabama at Birmingham, USA
Purushotham Bangalore, University of Alabama at Birmingham, USA
Jeff Gray, University of Alabama at Birmingham, USA
Chapter XIV
A Framework for Understanding the Open Source Revolution
Jeff Elpern, Software Quality Institute, Inc., USA
Chapter XV
Quality Metrics for Evaluating Data Provenance
Syed Ahsan, University of Engineering and Technology, Pakistan
Abad Shah, University of Engineering and Technology, Pakistan
Chapter XVI
System Integration using Model-Driven Engineering
Krishnakumar Balasubramanian, Vanderbilt University, USA
Douglas C. Schmidt, Vanderbilt University, USA
Zoltán Molnár, Vanderbilt University, USA
Ákos Lédeczi, Vanderbilt University, USA
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