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Resilience assessment and evaluation of computing systems[electronic resource] /

紀錄類型:	書目-語言資料,印刷品 : Monograph/item
杜威分類號:	005
書名/作者:	Resilience assessment and evaluation of computing systems/ edited by Katinka Wolter ... [et al.].
其他作者:	Wolter, Katinka.
出版者:	Berlin, Heidelberg : : Springer Berlin Heidelberg :, 2012.
面頁冊數:	xviii, 489 p. : : ill., digital ;; 25 cm.
Contained By:	Springer eBooks
標題:	Mathematical Applications in Computer Science.
標題:	Computer software - Reliability.
標題:	Computer software - Case studies. - Reliability
標題:	Computers - Reliability.
標題:	Computers - Case studies. - Reliability
標題:	Computer Science.
標題:	System Performance and Evaluation.
標題:	Probability and Statistics in Computer Science.
標題:	Quality Control, Reliability, Safety and Risk.
標題:	Software Engineering.
ISBN:	9783642290329 (electronic bk.)
ISBN:	9783642290312 (paper)
內容註:	Part I Introduction and Motivating Examples -- Fault Tolerance and Resilience: Meanings, Measures and Assessment -- Resilience in Mobile Networks: A Need and a Challenge -- Assessing Dependability and Resilience in Critical Infrastructures: Challenges and Opportunities -- Providing Dependability and Resilience in the Cloud: Challenges and Opportunities -- Part II Modelling Techniques -- Phase-Type Distributions -- Scalable Stochastic Modelling for Resilience -- Part III Model-Driven Prediction -- Modelling and Model-Based Assessment -- Software Aging and Rejuvenation for Increased Resilience: Modeling, Analysis and Applications -- Online Prediction: Four Case Studies -- Part IV Measurement and Metrics -- Foundations of Metrology in the Observation of Critical Systems -- Field Studies on Resilience: Measurements and Repositories -- Failure Diagnosis of Complex Systems -- Fault Injection -- Resilience Benchmarking -- Part V Testing Techniques -- Enforcing Resilience by Systematic Testing based on Structural and Operational Coverage Measures -- Resilience Assessment based on Performance Testing -- Robustness Testing Techniques and Tools -- Part VI Case Studies -- Case Study: Mobile Networks -- Case Study on Critical Infrastructures: Assessment of Electric Power Systems -- Providing Dependability and Performance in the Cloud: Case Studies -- Part VII Conclusions and Outlook -- Future of Resilience Assessment: The AMBER Research Roadmap.
摘要、提要註:	The resilience of computing systems includes their dependability as well as their fault tolerance and security. It defines the ability of a computing system to perform properly in the presence of various kinds of disturbances and to recover from any service degradation. These properties are immensely important in a world where many aspects of our daily life depend on the correct, reliable and secure operation of often large-scale distributed computing systems.Wolter and her co-editors grouped the 20 chapters from leading researchers into seven parts: an introduction and motivating examples, modeling techniques, model-driven prediction, measurement and metrics, testing techniques, case studies, and conclusions. The core is formed by 12 technical papers, which are framed by motivating real-world examples and case studies, thus illustrating the necessity and the application of the presented methods. While the technical chapters are independent of each other and can be read in any order, the reader will benefit more from the case studies if he or she reads them together with the related techniques.The papers combine topics like modeling, benchmarking, testing, performance evaluation, and dependability, and aim at academic and industrial researchers in these areas as well as graduate students and lecturers in related fields. In this volume, they will find a comprehensive overview of the state of the art in a field of continuously growing practical importance.
電子資源:	http://dx.doi.org/10.1007/978-3-642-29032-9

Resilience assessment and evaluation of computing systems[electronic resource] /
Resilience assessment and evaluation of computing systems[electronic resource] /edited by Katinka Wolter ... [et al.]. - Berlin, Heidelberg :Springer Berlin Heidelberg :2012. - xviii, 489 p. :ill., digital ;25 cm.

Part I Introduction and Motivating Examples -- Fault Tolerance and Resilience: Meanings, Measures and Assessment -- Resilience in Mobile Networks: A Need and a Challenge -- Assessing Dependability and Resilience in Critical Infrastructures: Challenges and Opportunities -- Providing Dependability and Resilience in the Cloud: Challenges and Opportunities -- Part II Modelling Techniques -- Phase-Type Distributions -- Scalable Stochastic Modelling for Resilience -- Part III Model-Driven Prediction -- Modelling and Model-Based Assessment -- Software Aging and Rejuvenation for Increased Resilience: Modeling, Analysis and Applications -- Online Prediction: Four Case Studies -- Part IV Measurement and Metrics -- Foundations of Metrology in the Observation of Critical Systems -- Field Studies on Resilience: Measurements and Repositories -- Failure Diagnosis of Complex Systems -- Fault Injection -- Resilience Benchmarking -- Part V Testing Techniques -- Enforcing Resilience by Systematic Testing based on Structural and Operational Coverage Measures -- Resilience Assessment based on Performance Testing -- Robustness Testing Techniques and Tools -- Part VI Case Studies -- Case Study: Mobile Networks -- Case Study on Critical Infrastructures: Assessment of Electric Power Systems -- Providing Dependability and Performance in the Cloud: Case Studies -- Part VII Conclusions and Outlook -- Future of Resilience Assessment: The AMBER Research Roadmap.

The resilience of computing systems includes their dependability as well as their fault tolerance and security. It defines the ability of a computing system to perform properly in the presence of various kinds of disturbances and to recover from any service degradation. These properties are immensely important in a world where many aspects of our daily life depend on the correct, reliable and secure operation of often large-scale distributed computing systems.Wolter and her co-editors grouped the 20 chapters from leading researchers into seven parts: an introduction and motivating examples, modeling techniques, model-driven prediction, measurement and metrics, testing techniques, case studies, and conclusions. The core is formed by 12 technical papers, which are framed by motivating real-world examples and case studies, thus illustrating the necessity and the application of the presented methods. While the technical chapters are independent of each other and can be read in any order, the reader will benefit more from the case studies if he or she reads them together with the related techniques.The papers combine topics like modeling, benchmarking, testing, performance evaluation, and dependability, and aim at academic and industrial researchers in these areas as well as graduate students and lecturers in related fields. In this volume, they will find a comprehensive overview of the state of the art in a field of continuously growing practical importance.

ISBN: 9783642290329 (electronic bk.)Subjects--Topical Terms:

467521
Mathematical Applications in Computer Science.

LC Class. No.: QA76.76.R44 / R47 2012

Dewey Class. No.: 005

Resilience assessment and evaluation of computing systems[electronic resource] /
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520 $a The resilience of computing systems includes their dependability as well as their fault tolerance and security. It defines the ability of a computing system to perform properly in the presence of various kinds of disturbances and to recover from any service degradation. These properties are immensely important in a world where many aspects of our daily life depend on the correct, reliable and secure operation of often large-scale distributed computing systems.Wolter and her co-editors grouped the 20 chapters from leading researchers into seven parts: an introduction and motivating examples, modeling techniques, model-driven prediction, measurement and metrics, testing techniques, case studies, and conclusions. The core is formed by 12 technical papers, which are framed by motivating real-world examples and case studies, thus illustrating the necessity and the application of the presented methods. While the technical chapters are independent of each other and can be read in any order, the reader will benefit more from the case studies if he or she reads them together with the related techniques.The papers combine topics like modeling, benchmarking, testing, performance evaluation, and dependability, and aim at academic and industrial researchers in these areas as well as graduate students and lecturers in related fields. In this volume, they will find a comprehensive overview of the state of the art in a field of continuously growing practical importance.
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