Produktbild: Handbook of Reliability Engineering

Handbook of Reliability Engineering

Fr. 242.00

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Beschreibung

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

17.04.2003

Abbildungen

XXXI, 1550 illus., 1539 illus. in color., farbige Illustrationen, schwarz-weiss Illustrationen

Herausgeber

Hoang Pham

Verlag

Springer London

Seitenzahl

663

Maße (L/B/H)

24.5/19.8/4 cm

Gewicht

1327 g

Auflage

2003 edition

Sprache

Englisch

ISBN

978-1-85233-453-6

Beschreibung

Rezension

From the reviews:



[T]here are some new topics included in the Handbook which make it a valuable addition to the literature and the reviewer would like to recommend the Handbook to practitioners and serious minded students and teachers." (Krisnha B. Misra, International Journal of Performability Engineering, Vol. 3, (3), 2007)


"Organised into 35 chapters written by 45 experts in the relevant fields, this handbook gives a very broad overview into important areas within reliability. Each chapter describes a number of different methods in use and many conclude with a discussion of open problems. All contain a long list of references to the scientific literature. … this book is well worth getting as a reference volume in your library, and provides an excellent way of getting new researchers up to speed! (Tim Bedford, ESRA Newsletter, January, 2005)


"This Handbook of Reliability Engineering, altogether 35 chapters, aims to provide a comprehensive state-of-the-art reference volume that covers both fundamental and theoretical work in the areas of reliability … . The handbook’s cross-disciplinary scope ensures that it serves as an indispensable tool for researchers in industrial, electrical, electronics, computer, civil, mechanical and systems engineering. … they all will be forced to take into account the excellent contributions appearing in this Handbook of Reliability Engineering." (Current Engineering Practice – online, Vol. 47, 2004/2005)


"The book … contains all the latest developments in concepts and the state-of-the-art techniques about reliability … . This book has thirty-five well-written excellent chapters by sixty leading authorities … . A reader, whether new to reliability concepts and techniques or a reasonably well-versed expert in reliability topics, should consider having this thought provoking book … . All reliabilists, professional engineers, medical and health researchers, graduate students andprofessors, industrial statisticians, numerical mathematicians, and software engineers would benefit greatly by reading … this book." (Ramalingam Shanmugam, Journal of Statistical Computation and Simulation, Vol. 75 (6), 2005)

Produktdetails

Einband

Gebundene Ausgabe

Erscheinungsdatum

17.04.2003

Abbildungen

XXXI, 1550 illus., 1539 illus. in color., farbige Illustrationen, schwarz-weiss Illustrationen

Herausgeber

Hoang Pham

Verlag

Springer London

Seitenzahl

663

Maße (L/B/H)

24.5/19.8/4 cm

Gewicht

1327 g

Auflage

2003 edition

Sprache

Englisch

ISBN

978-1-85233-453-6

Herstelleradresse

Libri GmbH
Europaallee 1
36244 Bad Hersfeld
DE

Email: GPSR Kontakt

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  • Produktbild: Handbook of Reliability Engineering
  • PART I. System Reliability and Optimization
    1 Multi-state k-out-of-n Systems
    Ming J. Zuo, Jinsheng Huang and Way Kuo
    1.1 Introduction
    1.2 Relevant Concepts in Binary Reliability Theory
    1.3 Binary k-out-of-n Models
    1.3.1 The k-out-of-n:G System with Independently and Identically Distributed Components
    1.3.2 Reliability Evaluation Using Minimal Path or Cut Sets
    1.3.3 Recursive Algorithms
    1.3.4 Equivalence Between a k-out-of-n:G System and an (n - k + 1)-out-of-n:F System
    1.3.5 The Dual Relationship Between the k-out-of-n G and F Systems
    1.4 Relevant Concepts in Multi-state Reliability Theory
    1.5 A Simple Multi-state k-out-of-n: G Model
    1.6 A Generalized Multi-state k-out-of-n:G System Model
    1.7 Properties of Generalized Multi-state k-out-of-n:G Systems
    1.8 Equivalence and Duality in Generalized Multi-state k-out-of-n Systems
    2 Reliability of Systems with Multiple Failure Modes
    Hoang Pham
    2.1 Introduction
    2.2 The Series System
    2.3 The Parallel System
    2.3.1 Cost Optimization
    2.4 The Parallel-Series System
    2.4.1 The Profit Maximization Problem
    2.4.2 Optimization Problem
    2.5 The Series-Parallel System
    2.5.1 Maximizing the Average System Profit
    2.5.2 Consideration of Type I Design Error
    2.6 The k-out-of-n Systems
    2.6.1 Minimizing the Average System Cost
    2.7 Fault-tolerant Systems
    2.7.1 Reliability Evaluation
    2.7.2 Redundancy Optimization
    2.8 Weighted Systems with Three Failure Modes
    3 Reliabilities of Consecutive-k Systems
    Jen-Chun Chang and Frank K. Hwang
    3.1 Introduction
    3.1.1 Background
    3.1.2 Notation
    3.2 Computation of Reliability
    3.2.1 The Recursive Equation Approach
    3.2.2 The Markov Chain Approach
    3.2.3 Asymptotic Analysis
    3.3 Invariant Consecutive Systems
    3.3.1 Invariant Consecutive-2Systems
    3.3.2 Invariant Consecutive-k Systems
    3.3.3 Invariant Consecutive-kG System.
    3.4 Component Importance and the Component Replacement Problem
    3.4.1 The Birnbaum Importance
    3.4.2 Partial Birnbaum Importance
    3.4.3 The Optimal Component Replacement
    3.5 The Weighted-consecutive-k-out-of-n System.
    3.5.1 The Linear Weighted-consecutive-k-out-of-n System
    3.5.2 The Circular Weighted-consecutive-k-out-of-n System
    3.6 Window Systems
    3.6.1 The f -within-consecutive-k-out-of-n System
    3.6.2 The 2-within-consecutive-k-out-of-n System
    3.6.3 The b-fold-window System
    3.7 Network Systems
    3.7.1 The Linear Consecutive-2 Network System
    3.7.2 The Linear Consecutive-k Network System
    3.7.3 The Linear Consecutive-k Flow Network System
    3.8 Conclusion
    4 Multi-state System Reliability Analysis and Optimization
    G. Levitin and A. Lisnianski
    4.1 Introduction
    4.1.1 Notation
    4.2 Multi-state System Reliability Measures
    4.3 Multi-state System Reliability Indices Evaluation Based on the Universal Generating Function
    4.4 Determination of u-function of Complex Multi-state System Using Composition Operators
    4.5 Importance and Sensitivity Analysis of Multi-state Systems
    4.6 Multi-state System Structure Optimization Problems
    4.6.1 Optimization Technique
    4.6.1.1 Genetic Algorithm
    4.6.1.2 Solution Representation and Decoding Procedure
    4.6.2 Structure Optimization of Series-Parallel System with Capacity-based Performance Measure
    4.6.2.1 Problem Formulation
    4.6.2.2 Solution Quality Evaluation
    4.6.3 Structure Optimization of Multi-state System with Two Failure Modes
    4.6.3.1 Problem Formulation
    4.6.3.2 Solution Quality Evaluation
    4.6.4 Structure Optimization for Multi-state System with Fixed Resource Requirements and Unreliable Sources
    4.6.4.1 Problem Formulation
    4.6.4.2 Solution Quality Evaluation
    4.6.4.3 The Output Performance Distribution of a System Containing Identical Elements in the Main Producing Subsystem
    4.6.4.4 The Output Performance Distribution of a System Containing Different Elements in the Main Producing Subsystem<