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Summary
Evolved from the lectures of a recognized pioneer in developing the theory of reliability, Mathematical Models for Systems Reliabilityprovides a rigorous treatment of the required probability background for understanding reliability theory.This classroom-tested text begins by discussing the Poisson process and its associated probability laws. It then uses a number of stochastic models to provide a framework for life length distributions and presents formal rules for computing the reliability of nonrepairable systems that possess commonly occurring structures. The next two chapters explore the stochastic behavior over time of one- and two-unit repairable systems. After covering general continuous-time Markov chains, pure birth and death processes, and transitions and rates diagrams, the authors consider first passage-time problems in the context of systems reliability. The final chapters show how certain techniques can be applied to a variety of reliability problems.Illustrating the models and methods with a host of examples, this book offers a sound introduction to mathematical probabilistic models and lucidly explores how they are used in systems reliability problems.
Table of Contents
| Preliminaries | p. 1 |
| The Poisson process and distribution | p. 1 |
| Waiting time distributions for a Poisson process | p. 6 |
| Statistical estimation theory | p. 8 |
| Basic ingredients | p. 8 |
| Methods of estimation | p. 9 |
| Consistency | p. 11 |
| Sufficiency | p. 12 |
| Rao-Blackwell improved estimator | p. 13 |
| Complete statistic | p. 14 |
| Confidence intervals | p. 14 |
| Order statistics | p. 16 |
| Generating a Poisson process | p. 18 |
| Nonhomogeneous Poisson process | p. 19 |
| Three important discrete distributions | p. 22 |
| Problems and comments | p. 24 |
| Statistical life length distributions | p. 39 |
| Stochastic life length models | p. 39 |
| Constant risk parameters | p. 39 |
| Time-dependent risk parameters | p. 41 |
| Generalizations | p. 42 |
| Models based on the hazard rate | p. 45 |
| IFR and DFR | p. 48 |
| General remarks on large systems | p. 50 |
| Problems and comments | p. 53 |
| Reliability of various arrangements of units | p. 63 |
| Series and parallel arrangements | p. 63 |
| Series systems | p. 63 |
| Parallel systems | p. 64 |
| The k out of n system | p. 66 |
| Series-parallel and parallel-series systems | p. 67 |
| Various arrangements of switches | p. 70 |
| Series arrangement | p. 71 |
| Parallel arrangement | p. 72 |
| Series-parallel arrangement | p. 72 |
| Parallel-series arrangement | p. 72 |
| Simplifications | p. 73 |
| Example | p. 74 |
| Standby redundancy | p. 76 |
| Problems and comments | p. 77 |
| Reliability of a one-unit repairable system | p. 91 |
| Exponential times to failure and repair | p. 91 |
| Generalizations | p. 97 |
| Problems and comments | p. 98 |
| Reliability of a two-unit repairable system | p. 101 |
| Steady-state analysis | p. 101 |
| Time-dependent analysis via Laplace transform | p. 105 |
| Laplace transform method | p. 105 |
| A numerical example | p. 111 |
| On Model 2(c) | p. 113 |
| Problems and Comments | p. 114 |
| Continuous-time Markov chains | p. 117 |
| The general case | p. 117 |
| Definition and notation | p. 117 |
| The transition probabilities | p. 119 |
| Computation of the matrix P(t) | p. 120 |
| A numerical example (continued) | p. 122 |
| Multiplicity of roots | p. 126 |
| Steady-state analysis | p. 127 |
| Reliability of three-unit repairable systems | p. 128 |
| Steady-state analysis | p. 128 |
| Steady-state results for the n-unit repairable system | p. 130 |
| Example 1 - Case 3(e) | p. 131 |
| Example 2 | p. 131 |
| Example 3 | p. 131 |
| Example 4 | p. 132 |
| Pure birth and death processes | p. 133 |
| Example 1 | p. 133 |
| Example 2 | p. 133 |
| Example 3 | p. 134 |
| Example 4 | p. 134 |
| Some statistical considerations | p. 135 |
| Estimating the rates | p. 136 |
| Estimation in a parametric structure | p. 137 |
| Problems and comments | p. 138 |
| First passage time for systems reliability | p. 143 |
| Two-unit repairable systems | p. 143 |
| Case 2(a) of Section 5.1 | p. 143 |
| Case 2(b) of Section 5.1 | p. 148 |
| Repairable systems with three (or more) units | p. 150 |
| Three units | p. 150 |
| Mean first passage times | p. 152 |
| Other initial states | p. 154 |
| Examples | p. 157 |
| Repair time follows a general distribution | p. 160 |
| First passage time | p. 160 |
| Examples | p. 164 |
| Steady-state probabilities | p. 165 |
| Problems and comments | p. 167 |
| Embedded Markov chains and systems reliability | p. 173 |
| Computations of steady-state probabilities | p. 173 |
| Example 1: One-unit repairable system | p. 174 |
| Example 2: Two-unit repairable system | p. 175 |
| Example 3: n-unit repairable system | p. 177 |
| Example 4: One out of n repairable systems | p. 183 |
| Example 5: Periodic maintenance | p. 184 |
| Example 6: Section 7.3 revisited | p. 189 |
| Example 7: One-unit repairable system with prescribed on-off cycle | p. 192 |
| Mean first passage times | p. 194 |
| Example 1: A two-unit repairable system | p. 194 |
| Example 2: General repair distribution | p. 195 |
| Example 3: Three-unit repairable system | p. 195 |
| Computations based on s[subscript jk] | p. 197 |
| Problems and comments | p. 200 |
| Integral equations in reliability theory | p. 207 |
| Introduction | p. 207 |
| Example 1: Renewal process | p. 208 |
| Some basic facts | p. 208 |
| Some asymptotic results | p. 210 |
| More basic facts | p. 212 |
| Example 2: One-unit repairable system | p. 213 |
| Example 3: Preventive replacements or maintenance | p. 215 |
| Example 4: Two-unit repairable system | p. 218 |
| Example 5: One out of n repairable systems | p. 219 |
| Example 6: Section 7.3 revisited | p. 220 |
| Example 7: First passage time distribution | p. 223 |
| Problems and comments | p. 224 |
| References | p. 247 |
| Index | p. 251 |
| Table of Contents provided by Ingram. All Rights Reserved. |
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