Statistical Reliability Engineering By Boris Gnedenko, Igor Pavlov, Igor Ushakov(auth.)
1999 | 509 Pages | ISBN: 0471123560 | PDF | 14 MB
1999 | 509 Pages | ISBN: 0471123560 | PDF | 14 MB
Proven statistical reliability analysis methods-available for the first time to engineers in the West While probabilistic methods of system reliability analysis have reached an unparalleled degree of refinement, Russian engineers have concentrated on developing more advanced statistical methods. Over the past several decades, their efforts have yielded highly evolved statistical models that have proven to be especially valuable in the estimation of reliability based upon tests of individual units of systems. Now Statistical Reliability Engineering affords engineers a unique opportunity to learn both the theory behind and applications of those statistical methods. Written by three leading innovators in the field, Statistical Reliability Engineering: * Covers all mathematical models for statistical reliability analysis, including Bayesian estimation, accelerated testing, and Monte Carlo simulation * Focuses on the estimation of various measures of system reliability based on the testing of individual units * Contains new theoretical results available for the first time in print * Features numerous examples demonstrating practical applications of the theory presented Statistical Reliability Engineering is an important professional resource for reliability and design engineers, especially those in the telecommunications and electronics industries. It is also an excellent course text for advanced courses in reliability engineering.Content: Chapter 1 Main Knowledge of Statistics (pages 1–59): Chapter 2 Plans of Tests with a Single Censorship (pages 60–99): Chapter 3 Censored Samples (pages 100–144): Chapter 4 Bayes Methods of Reliability Estimation (pages 145–156): Chapter 5 Accelerated Testing (pages 157–177): Chapter 6 Testing with No Failures (pages 179–207): Chapter 7 System Confidence Limits Based on Unit Test Results (pages 208–281): Chapter 8 Confidence Limits for Systems Consisting of Units with Exponential Distribution of Time to Failure (pages 282–327): Chapter 9 Sequential Criteria of Hypothesis Testing and Confidence Limits for Reliability Indices (pages 328–403): Chapter 10 Monte Carlo Simulation (pages 404–424): Chapter 11 Monte Carlo Simulation for Optimal Redundancy (pages 425–452):