Software Engineering for Self-Adaptive Systems (Lecture Notes in Computer Science / Programming and Software Engineering)

Software Engineering for Self-Adaptive Systems (Lecture Notes in Computer Science / Programming and Software Engineering)

by JeffMagee (Editor), RogériodeLemos (Editor), HolgerGiese (Editor), Betty H . C . Cheng (Editor), PaolaInverardi (Editor)

Synopsis

Although the self-adaptability of systems has been studied in a wide range of disciplines, from biology to robotics, only recently has the software engineering community recognized its key role in enabling the development of future software systems that are able to self-adapt to changes that may occur in the system, its requirements, or the environment in which it is deployed.

The 12 carefully reviewed papers included in this state-of-the-art survey originate from the International Seminar on Software Engineering for Self-Adaptive Systems, held in Dagstuhl Castle, Germany, in January 2008. They examine the current state-of-the-art in the field, describing a wide range of approaches coming from different strands of software engineering, and present future challenges facing this ever-resurgent and challenging field of research. Also included in this book is an invited roadmap paper on the research challenges facing self-adaptive systems within the area of software engineering, based on discussions at the Dagstuhl Seminar and put together by several of its participants. The papers have been divided into topical sections on architecture-based self-adaptation, context-aware and model-driven self-adaptation, and self-healing. These are preceded by three research roadmap papers.

$70.12

Quantity

10 in stock

More Information

Format: Paperback
Pages: 261
Publisher: Springer
Published: 19 Jun 2009

ISBN 10: 3642021603
ISBN 13: 9783642021602

Media Reviews

From the reviews:

This book presents 13 papers written by experts in the area of SE and adaptive systems. ... Overall, the book is well structured. It should be interesting to an academic audience. (Michele Mazzucco, ACM Computing Reviews, November, 2009)