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Stochastic Models in Reliability and Maintenance - Taschenbuch

2010, ISBN: 3642077250

[EAN: 9783642077258], Neubuch, [PU: Springer Berlin Heidelberg], MARKOV; MARKOVPROCESS; SIMULATION; STOCHASTICMODELS; CALCULUS; COMMUNICATION; MODEL; MODELING; NUMERICALMETHODS; OPTIMIZAT… Mehr…

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Herausgegeben:Osaki, Shunji:

Stochastic Models in Reliability and Maintenance - Taschenbuch

2010, ISBN: 9783642077258

[ED: Softcover], [PU: Springer / Springer Berlin Heidelberg / Springer, Berlin], Our daily lives can be maintained by the high-technology systems. Computer systems are typical examples of… Mehr…

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ISBN: 9783642077258

Our daily lives can be maintained by the high-technology systems. Computer systems are typical examples of such systems. We can enjoy our modern lives by using many computer systems. Much… Mehr…

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Stochastic Models in Reliability and Maintenance - Taschenbuch

2010, ISBN: 9783642077258

Springer Berlin Heidelberg, Taschenbuch, Auflage: Softcover reprint of hardcover 1st ed. 2002, 352 Seiten, Publiziert: 2010-02-19T00:00:01Z, Produktgruppe: Buch, Hersteller-Nr.: 46 black … Mehr…

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Osaki, Shunji:
Stochastic Models in Reliability and Maintenance - Erstausgabe

2010, ISBN: 9783642077258

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Details zum Buch
Stochastic Models in Reliability and Maintenance

This book contains 12 contributions on stochastic models in reliability and maintenance. Written by the leading researchers on each topic, each contribution surveys the current status on stochastic models emphasizing mathematical formulation and optimization applications. Each contribution is self-contained and has a thorough bibliography. The topics include renewal processes, semi-Markov processes, Markovian deterioration models, maintenance and replacement models, software reliability models and Monte-Carlo simulation. This book provides researchers, reliability engineers and graduate students with the current status of the field and future developments of the subject.

Detailangaben zum Buch - Stochastic Models in Reliability and Maintenance


EAN (ISBN-13): 9783642077258
ISBN (ISBN-10): 3642077250
Gebundene Ausgabe
Taschenbuch
Erscheinungsjahr: 2010
Herausgeber: Osaki, Shunji, Springer Berlin Heidelberg
352 Seiten
Gewicht: 0,532 kg
Sprache: eng/Englisch

Buch in der Datenbank seit 2011-11-13T14:40:50+01:00 (Berlin)
Detailseite zuletzt geändert am 2023-06-25T11:27:09+02:00 (Berlin)
ISBN/EAN: 9783642077258

ISBN - alternative Schreibweisen:
3-642-07725-0, 978-3-642-07725-8
Alternative Schreibweisen und verwandte Suchbegriffe:
Autor des Buches: shun
Titel des Buches: stochastic models


Daten vom Verlag:

Autor/in: Shunji Osaki
Titel: Stochastic Models in Reliability and Maintenance
Verlag: Springer; Springer Berlin
338 Seiten
Erscheinungsjahr: 2010-12-05
Berlin; Heidelberg; DE
Gedruckt / Hergestellt in Niederlande.
Gewicht: 0,539 kg
Sprache: Englisch
109,99 € (DE)

BC; Probability Theory and Stochastic Processes; Hardcover, Softcover / Mathematik/Wahrscheinlichkeitstheorie, Stochastik, Mathematische Statistik; Wahrscheinlichkeitsrechnung und Statistik; Verstehen; Markov; Markov process; Simulation; Stochastic models; calculus; communication; maintenance; model; modeling; numerical methods; optimization; reliability; renewal theory; statistical method; stochastic systems; Operations Research/Decision Theory; Industrial and Production Engineering; Probability Theory; Operations Research and Decision Theory; Industrial and Production Engineering; Stochastik; Unternehmensforschung; Management: Entscheidungstheorie; Fertigungstechnik und Ingenieurwesen; BB

1. Renewal Processes and Their Computational Aspects.- 1.1 Introduction.- 1.2 Basic Renewal Theory.- 1.2.1 Continuous renewal theory.- 1.2.2 Discrete renewal theory.- 1.3 Some Useful Properties of the Renewal Function.- 1.3.1 Specific examples.- 1.3.2 Asymptotic properties.- 1.4 Analytical Approximation Methods.- 1.4.1 Phase renewal processes.- 1.4.2 Gamma approximations.- 1.4.3 Methods based on equilibrium distribution.- 1.5 Bounds.- 1.6 Numerical Methods.- 1.6.1 Laplace inversion technique.- 1.6.2 Cubic spline algorithm.- 1.6.3 Discritization algorithm.- 1.6.4 Approximation by rational functions.- 1.7 Concluding Remarks.- 2. Stochastic Orders in Reliability Theory.- 2.1 Introduction.- 2.2 Definitions and Basic Properties.- 2.2.1 Stochastic orders generated from univariate functions.- 2.2.2 Conditional stochastic orders.- 2.2.3 Bivariate characterization of stochastic orders.- 2.3 Applications in Reliability Theory.- 2.3.1 Notions of aging.- 2.3.2 Useful stochastic inequalities in reliability theory.- 2.3.3 Stochastic comparisons of system reliabilities.- 2.3.4 Redundancy improvement.- 2.3.5 Stochastic comparisons of maintenance policies.- 2.3.5.1 Replacements upon failures.- 2.3.5.2 Age replacement.- 2.3.5.3 Block replacement.- 2.3.5.4 Minimal repair.- 2.3.5.5 Minimal repair with block replacement.- 2.3.5.6 Stochastic comparison of different maintenance policies.- 2.A TP2 Functions.- 3. Classical Maintenance Models.- 3.1 Introduction.- 3.2 Block Replacement.- 3.3 Age Replacement.- 3.4 Order Replacement.- 3.5 Inspection Strategies.- 3.6 Conclusions.- 4. A Review of Delay Time Analysis for Modelling Plant Maintenance.- 4.1 Introduction.- 4.2 Maintenance Practice.- 4.3 The Delay Time Concept.- 4.4 Basic Delay Time Maintenance Model: Complex Plant.- 4.5 Basic Maintenance Model: Component Tracking.- 4.6 Relaxation of Assumptions.- 4.7 Non-perfect Inspection.- 4.8 Non-steady-state Condition.- 4.9 Non-homogeneous Defect Arrival Rate ?.- 4.10 Condition-dependent Cost and Downtime for Repair.- 4.11 Case Experience Using Subjective Data: Case Experience.- 4.12 Revision of Subjectively Estimated Delay Time Distribution.- 4.13 Correction for Sampling Bias.- 4.14 Subjective Estimation of the Delay Time Distribution Directly.- 4.15 Objective Estimation of Delay Time Parameters.- 4.16 Case Experience Using Objective Data: HPP of Defect Arrival.- 4.17 Discussion of Further Developments in Delay Time Modelling.- 4.18 Conclusions.- 5. Imperfect Preventive Maintenance Models.- 5.1 Introduction.- 5.2 Sequential Imperfect Preventive Maintenance.- 5.2.1 Introduction.- 5.2.2 Model A — age.- 5.2.3 Model B — failure rate.- 5.2.4 Numerical examples.- 5.3 Shock Model with Imperfect Preventive Maintenance.- 5.3.1 Introduction.- 5.3.2 Model and expected cost.- 5.3.3 Optimal policies.- 5.4 Conclusions.- 6. Generalized Renewal Processes and General Repair Models.- 6.1 Background and Motivation.- 6.2 Generalized Renewal Processes.- 6.3 g-Renewal Processes in Discrete Time.- 6.4 Monotonicity and Asymptotic Properties of the g-Renewal Density.- 6.5 On the g-Renewal Function.- 6.6 A General Repair Model.- 7. Two-Unit Redundant Models.- 7.1 Introduction.- 7.2 Two-Unit Standby System.- 7.2.1 Model and assumptions.- 7.2.2 First-passage time distributions.- 7.2.3 Expected numbers of visits to state.- 7.2.4 Transition probabilities.- 7.3 Preventive Maintenance of Two-Unit Systems.- 7.3.1 Model and analysis.- 7.3.2 Optimum preventive maintenance policies.- 7.3.3 Replacement of a two-unit parallel system.- 7.4 Other Two-Unit Systems.- 7.4.1 Two-unit parallel system.- 7.4.2 Two-unit priority standby system.- 7.4.3 Two-unit standby system with imperfect switchover.- 7.4.4 Other models.- 8. Optimal Maintenance Problems for Markovian Deteriorating Systems.- 8.1 A Basic Optimal Replacement Problem for a Discrete Time Markovian Deteriorating System.- 8.1.1 Some conditions on transition probabilities and cost structure.- 8.1.2 Formulation by Markovian decision process (MDP).- 8.1.3 Optimality of control limit rule.- 8.2 An Optimal Inspection and Replacement Problem.- 8.2.1 Transition probability.- 8.2.2 Formulation by semi-Markov decision process (SMDP).- 8.2.3 Structure of optimal inspection and replacement policy.- 8.3 An Optimal Inspection and Replacement Policy with Incomplete Information.- 8.3.1 Some notations and conditions.- 8.3.2 Formulation by partially observable Markov decision process (POMDP).- 8.3.3 Some properties of TP2 order.- 8.3.4 Some properties of optimal function.- 8.3.5 Structure of optimal inspection and replacement policy.- 8.4 A Continuous Time Markovian Deteriorating System.- 8.4.1 A continuous time Markovian deteriorating system.- 8.4.2 Transition probability.- 8.4.3 Formulation by semi-Markov decision process.- 8.4.4 Structure of optimal policy.- 8.5 An Optimal Maintenance Problem for a Queueing System.- 8.5.1 Model description.- 8.5.2 Formulation by semi-Markov decision process.- 8.5.3 Properties of value function.- 8.5.4 Structure of optimal policy.- 9. Transient Analysis of Semi-Markov Reliability Models — A Tutorial Review with Emphasis on Discrete-Parameter Approaches.- 9.1 Introduction.- 9.2 Modelling Framework.- 9.3 Dependability Measures.- 9.4 Methods of Analysis.- 9.4.1 Continuous-parameter models.- 9.4.2 Discrete-parameter models.- 9.5 Equations for the Dependability Measures.- 9.6 Numerical Solution Techniques.- 9.6.1 Solving the integral equations.- 9.6.2 Discrete-parameter approximations.- 9.7 Recent Developments, Conclusions and Further Work.- 10. Software Reliability Models.- 10.1 Introduction.- 10.2 Definitions and Software Reliability Model.- 10.3 Software Reliability Growth Modeling.- 10.4 Imperfect Debugging Modeling.- 10.4.1 Imperfect debugging model with perfect correction rate.- 10.4.2 Imperfect debugging model for introduced faults.- 10.5 Software Availability Modeling.- 10.5.1 Model description.- 10.5.2 Software availability measures.- 10.6 Application of Software Reliability Assessment.- 10.6.1 Optimal software release problem.- 10.6.1.1 Maintenance cost model.- 10.6.1.2 Maintenance cost model with reliability requirement.- 10.6.2 Statistical software testing-progress control.- 10.6.3 Optimal testing-effort allocation problem.- 11. Reliability Models in Data Communication Systems.- 11.1 Introduction.- 11.2 SW ARQ Model with Intermittent Faults.- 11.2.1 Intermittent faults.- 11.2.2 ARQ policy.- 11.2.3 Optimal retransmission number.- 11.2.4 Numerical examples and remarks.- 11.3 SR ARQ Model with Retransmission Number.- 11.3.1 Model and analysis.- 11.3.2 Optimal policy.- 11.3.3 Numerical examples and remarks.- 11.4 Hybrid ARQ Models with Response Time.- 11.4.1 Type-I hybrid ARQ.- 11.4.2 Type-II hybrid ARQ.- 11.4.3 Comparison of type-I and type-II hybrid ARQs.- 11.4.4 Numerical examples and remarks.- 12. Quick Monte Carlo Methods in Stochastic Systems and Reliability.- 12.1 Introduction.- 12.2 The Problem with Direct Simulation.- 12.3 Importance Sampling.- 12.4 The Optimal Change of Measure.- 12.4.1 Remarks.- 12.4.2 Preliminary definitions.- 12.4.3 The recursive approach.- 12.4.4 Exact calculation of ?(x).- 12.5 Cases of Application of the Recursive Approach.- 12.6 System Model.- 12.7 Regenerative Simulation.- 12.8 Failure Biasing Methods.- 12.8.1 Simple failure biasing (SFB).- 12.8.2 Balanced failure biasing (BFB).- 12.8.3 Bias2 failure biasing.- 12.8.4 Failure distance biasing (FDB).- 12.8.5 Balanced 1 failure biasing (B1FB).- 12.8.6 Balanced 2 failure biasing (B2FB).- 12.8.7 Bounded relative error and failure biasing.- 12.9 Unreliability Estimation.- 12.9.1 One-component system.- 12.9.2 General case.- 12.9.3 Example.- 12.10 Analytical-Statistical Methods.- 12.11 Concluding Remarks.

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