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" The reliability, availability, and productiveness of systems "
D.J. Sherwin and A. Bossche.
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BL
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| Record Number
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775724
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b595720
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| Main Entry
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D.J. Sherwin and A. Bossche.
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| Title & Author
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The reliability, availability, and productiveness of systems\ D.J. Sherwin and A. Bossche.
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| Edition Statement
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1st ed
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| Publication Statement
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Dordrecht : Springer Science+Business Media, 1993
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| Page. NO
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(vii, 270 pages) : illustrations
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| ISBN
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9401115826
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: 9789401115827
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| Notes
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Originally published by Chapman & Hall.
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| Contents
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1 Definitions, terminology and basics --; 2 Series systems --; 3 Active parallel redundancy --; 4 Standby redundancy --; 5 State-space models and matrix methods --; 6 Productiveness of manufacturing systems --; 7 Systems of multistate items --; 8 Boolean algebra and probability laws for reliability evaluations --; 9 Fault trees, event trees and success trees --; 10 Networks and directional graphs --; 11 Maintained system reliability --; 12 Data analysis --; 13 The management of system reliability --; Appendix A: Tables of median, 5% and 95% ranks --; Appendix C: List of symbols and abbreviations.
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| Abstract
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This book is about the measurement and prediction of the reliability behaviour of systems of physical items. It is not specifically concerned with human factors with safety analysis as such, although some of the techniques discussed are adaptable to these purposes. A machine or an electronic circuit exemplifies a system. Each machine or circuit may also be treated as an item in a larger system. However, this does not reduce it suddenly to basic component status; it remains complex and can only be treated as unitary under definable restrictions. In particular, the effects of maintenance and component renewal must be considered most carefully. Previous books on system reliability have concentrated on one or two only of the six principal techniques available to the analyst. These are: 1. probability theory; 2. distributional statistics; 3. markov methods (matrix algebra); 4. fault and event trees (Boolean logic); 5. theory of renewal processes; 6. directional graph theory (di-graphs). This book relates these methods to one another and to their applications. The authors feel that previous books which concentrated upon one tech nique and the contortions necessary to use it in every possible situation may have misled readers into believing that there were no other methods and that some real problems were intractable or more difficult to solve than need be. For example, several results which are proved in other books for items with exponentially distributed times to/between failures are shown to be independent of distribution.
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| Subject
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Systems engineering.
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| LC Classification
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TA168.D574 1993
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A Bossche
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D J Sherwin
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