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Title
Reliability modelling and optimization of warm standby systems / Rui Peng, Qingqing Zhai, Jun Yang ; translated by Rui Peng, Qingqing Zhai, Jun Yang, Heping Jia.
ISBN
9789811617928 (electronic bk.)
9811617929 (electronic bk.)
9811617910
9789811617911
Published
Singapore : Springer, [2021]
Language
English
Language Note
In English; translated from the Chinese.
Description
1 online resource (xii, 166 pages) : illustrations (some color)
Item Number
10.1007/978-981-16-1792-8 doi
Call Number
TA169
Dewey Decimal Classification
620/.00452
Summary
This book introduces the reliability modelling and optimization of warm standby systems. Warm standby is an attractive redundancy technique, as it consumes less energy than hot standby and switches into the active state faster than cold standby. Since a warm standby component experiences different failure rates in the standby state and active state, the reliability evaluation is challenging and the existing works are only restricted to very special cases. By adapting the decision diagrams, this book proposes the methodology to evaluate the reliability of different types of warm standby systems and studies the reliability optimization. Compared with existing works, the proposed methods allow the system to have an arbitrary number of components and allow the failure time distribution of components to observe arbitrary distributions. From this book, the readers can not only learn how to evaluate and optimize the reliability of warm standby systems but also use the methods to study the reliability of other complex systems.
Note
Jointly published with National Defense Industry Press.
Bibliography, etc. Note
Includes bibliographical references.
Access Note
Access limited to authorized users.
Source of Description
Online resource; title from PDF title page (SpringerLink, viewed May 17, 2021).
Available in Other Form
Print version: 9789811617911
Introduction
Related concepts in reliability modeling of warm standby systems
Reliability of k-out-of-n warm standby systems
Reliability of demand-based warm standby systems
Reliability of warm standby systems with imperfect fault coverage and switching failure
Optimal working sequence in a 1-out-of-n warm standby system
Reliability Evaluation for Demand-based Warm Standby Systems Considering Degradation Process
Reliability of demand-based warm standby system with common bus performance sharing
Reliability of Warm Standby Systems with Phased-Mission Requirement
Reliability of warm standby systems with complex structure.