Overview

This book surveys recent applications of inspection models, maintenance models and cumulative damage models, as well as discusses the policies involved with these models. It explains how a stochastic approach can be applied to systems using real-world examples. The book begins by introducing and summarizing standard inspection models. It dedicates chapters to random inspection models and general inspection models, before moving on to discuss inspection policies and checkpoint models. The book discusses inspection of reliability systems, such as missile maintenance systems, as well as Markov models of inspection. The book concludes with a summary of other inspection models, problems they face, and solutions to these problems. Each chapter utilizes examples to illustrate the various models, methods, and policies. This book is of interest to engineering students, researchers, and design and production engineers working in system manufacturing.

Full Product Details

Author:   Kodo Ito ,  Toshio Nakagawa
Publisher:   Springer International Publishing AG
Imprint:   Springer International Publishing AG
Edition:   1st ed. 2023
Weight:   0.576kg
ISBN:  

9783031220203

ISBN 10:   303122020
Pages:   261
Publication Date:   01 March 2023
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Manufactured on demand  
We will order this item for you from a manufactured on demand supplier.

Table of Contents

1 Introduction 1.1 Importance of Reliability Engineering 1.2 Stochastic Models and Practical Applications 1.3 Two Problems of Inspection 1.4 Standard and Random Inspections 1.5 General Inspection1.6 Inspection Model with Minimal Repair 1.7 Hierarchical Structure Reliability 1.8 Application Examples 1.9 Problems References 2 Standard Inspection Models 2.1 Standard Inspection Policy 2.1.1 Asymptotic Inspection Times 2.2 Inspection for Finite Interval 2.2.1 Asymptotic Inspection Times 2.3 Inspection for Random Interval2.4 Modified Inspection Models 2.4.1 Imperfect Inspection 2.4.2 Intermittent Fault 2.4.3 Inspection for Scale 2.5 Problems References 3 Random Inspection Models 3.1 Periodic and Random Inspections 3.1.1 Sequential Inspection3.1.2 Comparison of Periodic and Random Inspections 3.2 Random Inspection3.3 Inspection First and Last3.3.1 Inspection First 3.3.2 Inspection Last 3.3.3 Comparison of Inspection First and Last 3.4 Inspection Overtime 3.4.1 Comparisons of Periodic Inspection and Inspection Overtime 3.4.2 Comparisons of Inspection Overtime with First and Last 3.5 Problems References 4 General Inspection Models 4.1 Inspection First and Last 4.1.1 Inspection First4.1.2 Inspection Last 4.2 General Inspection Models 4.2.1 Inspection First 4.2.2 Inspection Last 4.3 Inspection Models with Three Variables 4.3.1 Inspection First, Last and Middle 4.3.2 Comparisons of Inspection First, Last and Middle 4.4 Modified Inspection Models 4.4.1 Modified Inspection First 4.4.2 Modified Inspection Last 4.4.3 Comparisons of Modified Inspection First and Last 4.5 Problems References 5 Inspection Models with Minimal Repair 5.1 Inspection with Two Failures 5.1.1 Periodic Inspection 5.1.2 Sequential Inspection 5.2 Modified Inspection Model5.2.1 Periodic Inspection 5.2.2 Sequential Inspection 5.3 Inspection for a Finite Interval 5.3.1 Standard Inspection 5.3.2 Modified Inspection Model 5.4 Problems References 6 Hierarchical Structure Reliability 6.1 Basic System 6.1.1 n-unit Parallel System 6.1.2 n-unit Series System 6.1.3 k-out-of-n System 6.2 Random K-out-of-n System 6.2.1 Series-parallel System 6.2.2 Parallel-series System 6.2.3 Consecutive k-out-of-5:F System 6.3 Comparison of Series-parallel and Parallel-series Systems 6.3.1 Rebiability Properties 6.3.2 Replacement Time 6.3.3 Inspection Time 6.4 ProblemsReferences 7 Application Examples of Storage System 7.1 Basic Inspection Model 7.2 Modified Inspection Model7.3 Finite Number of Inspections 7.4 Degradation at Inspection 7.5 Problems References 8 Application Examples of Phased Array Radar 8.1 Cost Model 8.1.1 Cyclic Maintenance 8.1.2 Delayed Maintenance 8.2 Availability Model 8.2.1 Cyclic Maintenance 8.2.2 Delayed Maintenance 8.2.3 Combined Cyclic and Delayed Maintenances 8.3 ProblemsReferences 9 Application Examples of Power Generator 9.1 Self-Diagnosis Policy for Gas Turbine FADEC 9.1.1 Standard FADEC SYSTEM 9.2 Maintenance of Power Generator 9.2.1 Shock Model with Damage Level 9.2.2 Two Modified Schock Models 9.2.3 Shock Model with Multi-echelon Risks 9.3 Problems References 10 Application Examples of Airframe 10.1 Optimal Multi-echelon Maintenance of Aircraft 10.1.1 Multi-echelon Maintenance with Hazard Rates 10.1.2 Operation Policy for Commercial Aircraft 10.2 Airframe Maintenance with Crack Growth 10.2.1 Airframe Cracks (1)10.2.2 Airframe Cracks (2) 10.3 Commercial Airframe with Damage and Crack 10.3.1 Damage Level and Crack Number 10.3.2 Multiple Damage Levels and Crack Number 10.4 Problems References 10.A Appendix A Answer to Selected Problems 

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Author Information

Kodo Ito received B.S. and M.S. degrees in Physics from Yamagata University, Japan, in 1983 and 1985, respectively, and D.E. degree from Aichi Institute of Technology, Japan, in 1999. He worked as Aircraft Engineer with Mitsubishi Heavy Industries, Ltd., Nagoya, Japan, for 32 years from 1985 to 2017. He is now Professor at Tottori University, Japan, and Visiting Professor at Fukushima University, Japan. His research interests are practical optimal operation and maintenance policies for large and complicated systems such as missile systems, radar systems, aircraft engine controllers, airframes, power plants, and social infrastructures.   Toshio Nakagawa received B.S.E. and M.S. degrees from Nagoya Institute of Technology, Japan, in 1965 and 1967, respectively, and Doctor degree from Kyoto University, Japan, in 1977. He worked as Research Associate at Syracuse University for two years from 1972 to 1973. He is now Honorary Professor at Aichi Institute of Technology, Japan. His research interests are optimization problems in operations research and management science and analysis for stochastic and computer systems in reliability and maintenance theory. He has published 7 books from Springer and more than 300 papers in research journals.

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