Reliability management and engineering: challenges and future trends
Gespeichert in:
| Weitere Verfasser: | , |
|---|---|
| Format: | Elektronisch E-Book |
| Sprache: | English |
| Veröffentlicht: |
Boca Raton ; London ; New York
CRC Press
2020
|
| Ausgabe: | First edition |
| Schriftenreihe: | Advanced research in reliability and system assurance engineering
|
| Schlagworte: | |
| Online-Zugang: | FHD01 |
| Beschreibung: | 1 Online-Ressource (xiv, 286 Seiten) |
| ISBN: | 9781000067682 |
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| 505 | 8 | |a Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Acknowledgments -- Editors -- Contributors -- Chapter 1 An Integrated Robust Hybrid Fuzzy Reliability Model for Redesigning New Products and Systems -- 1.1 Introduction -- 1.2 Literature Review -- 1.3 Model Formation -- 1.3.1 Intuitionistic Fuzzy Set -- Definition 1 -- 1.3.2 Aggregation Operators for the Intuitionistic Fuzzy Set -- Definition 2 (Gümüş & Bali, 2017) -- Definition 3 (Xu & Yager, 2006) -- 1.3.3 TOPSIS and the Proposed Model Algorithm | |
| 505 | 8 | |a 1.3.4 Introduction of the Mathematical Model for Evaluating Failure Modes Interactions -- 1.4 Numerical Illustration -- 1.4.1 Implementing the IFWG-TOPSIS Model Algorithm for Building Reliability Knowledge -- 1.4.2 A Mathematical Model for Evaluating Failure Modes Interactions -- 1.4.3 Discussion of the Results -- 1.5 Conclusions -- Appendix: MATLAB Code -- Nomenclature -- References -- Chapter 2 Reliability and Cost-Benefit Analysis of a Repairable System under a Cost-Free Warranty Policy with the Repairman Taking Multiple Vacations -- 2.1 Introduction -- 2.2 Background and Literature Review | |
| 505 | 8 | |a 2.2.1 The Concept of Warranty -- 2.2.1.1 Role of Warranty -- 2.2.1.2 Warranty Cost -- 2.2.2 Warranty Cost Analysis -- 2.2.3 Vacations Model Analysis -- 2.2.4 Overcoming the Limitations of the Literature -- 2.3 Description of the System -- 2.3.1 Assumptions -- 2.3.2 State-Specifications -- 2.3.3 Notations -- 2.4 System Analysis -- 2.4.1 Formulation of the Mathematical Model -- 2.4.2 Solution of the Equations -- 2.4.3 Reliability of the System R(t) -- 2.4.4 Availability of the System Av(t) -- 2.4.5 Busy Period of the Repairman During the Warranty Period | |
| 505 | 8 | |a 2.4.6 Busy Period of the Repairman Beyond the Warranty Period -- 2.4.7 Vacation Time of the Repairman During the Warranty Period -- 2.4.8 Vacation Time of the Repairman Beyond the Warranty Period -- 2.4.9 Idle Time of the Repairman During the Warranty Period -- 2.4.10 Idle Time of the Repairman Beyond the Warranty Period -- 2.4.11 Profit Analysis of the User -- 2.5 Numerical Results -- 2.5.1 Interpretation of the Numerical Results -- 2.6 Conclusions -- 2.7 Future Research Directions -- References -- Chapter 3 A Bayesian Approach for Parameter Estimation of Ball Bearing Failure Data | |
| 505 | 8 | |a 3.1 Introduction -- 3.2 Literature Review and Methodology -- 3.3 Lindley Distribution -- 3.4 Basic Definition -- 3.5 Proposed Model -- 3.6 Maximum Likelihood Estimation -- 3.7 Confidence Intervals -- 3.7.1 Asymptotic Confidence Intervals -- 3.7.2 Bootstrap Confidence Interval -- 3.8 Bayesian Estimation -- 3.8.1 Bayesian Intervals -- 3.9 Data Study -- 3.9.1 Simulated Data -- 3.9.2 Real Example -- 3.10 Conclusion -- 3.11 Discussion and Scope of Future Research -- Acknowledgments -- Abbreviations -- References | |
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| contents | Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Acknowledgments -- Editors -- Contributors -- Chapter 1 An Integrated Robust Hybrid Fuzzy Reliability Model for Redesigning New Products and Systems -- 1.1 Introduction -- 1.2 Literature Review -- 1.3 Model Formation -- 1.3.1 Intuitionistic Fuzzy Set -- Definition 1 -- 1.3.2 Aggregation Operators for the Intuitionistic Fuzzy Set -- Definition 2 (Gümüş & Bali, 2017) -- Definition 3 (Xu & Yager, 2006) -- 1.3.3 TOPSIS and the Proposed Model Algorithm 1.3.4 Introduction of the Mathematical Model for Evaluating Failure Modes Interactions -- 1.4 Numerical Illustration -- 1.4.1 Implementing the IFWG-TOPSIS Model Algorithm for Building Reliability Knowledge -- 1.4.2 A Mathematical Model for Evaluating Failure Modes Interactions -- 1.4.3 Discussion of the Results -- 1.5 Conclusions -- Appendix: MATLAB Code -- Nomenclature -- References -- Chapter 2 Reliability and Cost-Benefit Analysis of a Repairable System under a Cost-Free Warranty Policy with the Repairman Taking Multiple Vacations -- 2.1 Introduction -- 2.2 Background and Literature Review 2.2.1 The Concept of Warranty -- 2.2.1.1 Role of Warranty -- 2.2.1.2 Warranty Cost -- 2.2.2 Warranty Cost Analysis -- 2.2.3 Vacations Model Analysis -- 2.2.4 Overcoming the Limitations of the Literature -- 2.3 Description of the System -- 2.3.1 Assumptions -- 2.3.2 State-Specifications -- 2.3.3 Notations -- 2.4 System Analysis -- 2.4.1 Formulation of the Mathematical Model -- 2.4.2 Solution of the Equations -- 2.4.3 Reliability of the System R(t) -- 2.4.4 Availability of the System Av(t) -- 2.4.5 Busy Period of the Repairman During the Warranty Period 2.4.6 Busy Period of the Repairman Beyond the Warranty Period -- 2.4.7 Vacation Time of the Repairman During the Warranty Period -- 2.4.8 Vacation Time of the Repairman Beyond the Warranty Period -- 2.4.9 Idle Time of the Repairman During the Warranty Period -- 2.4.10 Idle Time of the Repairman Beyond the Warranty Period -- 2.4.11 Profit Analysis of the User -- 2.5 Numerical Results -- 2.5.1 Interpretation of the Numerical Results -- 2.6 Conclusions -- 2.7 Future Research Directions -- References -- Chapter 3 A Bayesian Approach for Parameter Estimation of Ball Bearing Failure Data 3.1 Introduction -- 3.2 Literature Review and Methodology -- 3.3 Lindley Distribution -- 3.4 Basic Definition -- 3.5 Proposed Model -- 3.6 Maximum Likelihood Estimation -- 3.7 Confidence Intervals -- 3.7.1 Asymptotic Confidence Intervals -- 3.7.2 Bootstrap Confidence Interval -- 3.8 Bayesian Estimation -- 3.8.1 Bayesian Intervals -- 3.9 Data Study -- 3.9.1 Simulated Data -- 3.9.2 Real Example -- 3.10 Conclusion -- 3.11 Discussion and Scope of Future Research -- Acknowledgments -- Abbreviations -- References |
| ctrlnum | (OCoLC)1220920893 (DE-599)BVBBV046992007 |
| discipline | Technik Elektrotechnik / Elektronik / Nachrichtentechnik |
| discipline_str_mv | Technik Elektrotechnik / Elektronik / Nachrichtentechnik |
| edition | First edition |
| format | Electronic eBook |
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| id | DE-604.BV046992007 |
| illustrated | Not Illustrated |
| index_date | 2024-07-03T15:53:51Z |
| indexdate | 2024-07-10T08:59:32Z |
| institution | BVB |
| isbn | 9781000067682 |
| language | English |
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| publisher | CRC Press |
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| series2 | Advanced research in reliability and system assurance engineering |
| spelling | Garg, Harish edt Reliability management and engineering challenges and future trends edited by Harish Garg and Mangey Ram First edition Boca Raton ; London ; New York CRC Press 2020 1 Online-Ressource (xiv, 286 Seiten) txt rdacontent c rdamedia cr rdacarrier Advanced research in reliability and system assurance engineering Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Acknowledgments -- Editors -- Contributors -- Chapter 1 An Integrated Robust Hybrid Fuzzy Reliability Model for Redesigning New Products and Systems -- 1.1 Introduction -- 1.2 Literature Review -- 1.3 Model Formation -- 1.3.1 Intuitionistic Fuzzy Set -- Definition 1 -- 1.3.2 Aggregation Operators for the Intuitionistic Fuzzy Set -- Definition 2 (Gümüş & Bali, 2017) -- Definition 3 (Xu & Yager, 2006) -- 1.3.3 TOPSIS and the Proposed Model Algorithm 1.3.4 Introduction of the Mathematical Model for Evaluating Failure Modes Interactions -- 1.4 Numerical Illustration -- 1.4.1 Implementing the IFWG-TOPSIS Model Algorithm for Building Reliability Knowledge -- 1.4.2 A Mathematical Model for Evaluating Failure Modes Interactions -- 1.4.3 Discussion of the Results -- 1.5 Conclusions -- Appendix: MATLAB Code -- Nomenclature -- References -- Chapter 2 Reliability and Cost-Benefit Analysis of a Repairable System under a Cost-Free Warranty Policy with the Repairman Taking Multiple Vacations -- 2.1 Introduction -- 2.2 Background and Literature Review 2.2.1 The Concept of Warranty -- 2.2.1.1 Role of Warranty -- 2.2.1.2 Warranty Cost -- 2.2.2 Warranty Cost Analysis -- 2.2.3 Vacations Model Analysis -- 2.2.4 Overcoming the Limitations of the Literature -- 2.3 Description of the System -- 2.3.1 Assumptions -- 2.3.2 State-Specifications -- 2.3.3 Notations -- 2.4 System Analysis -- 2.4.1 Formulation of the Mathematical Model -- 2.4.2 Solution of the Equations -- 2.4.3 Reliability of the System R(t) -- 2.4.4 Availability of the System Av(t) -- 2.4.5 Busy Period of the Repairman During the Warranty Period 2.4.6 Busy Period of the Repairman Beyond the Warranty Period -- 2.4.7 Vacation Time of the Repairman During the Warranty Period -- 2.4.8 Vacation Time of the Repairman Beyond the Warranty Period -- 2.4.9 Idle Time of the Repairman During the Warranty Period -- 2.4.10 Idle Time of the Repairman Beyond the Warranty Period -- 2.4.11 Profit Analysis of the User -- 2.5 Numerical Results -- 2.5.1 Interpretation of the Numerical Results -- 2.6 Conclusions -- 2.7 Future Research Directions -- References -- Chapter 3 A Bayesian Approach for Parameter Estimation of Ball Bearing Failure Data 3.1 Introduction -- 3.2 Literature Review and Methodology -- 3.3 Lindley Distribution -- 3.4 Basic Definition -- 3.5 Proposed Model -- 3.6 Maximum Likelihood Estimation -- 3.7 Confidence Intervals -- 3.7.1 Asymptotic Confidence Intervals -- 3.7.2 Bootstrap Confidence Interval -- 3.8 Bayesian Estimation -- 3.8.1 Bayesian Intervals -- 3.9 Data Study -- 3.9.1 Simulated Data -- 3.9.2 Real Example -- 3.10 Conclusion -- 3.11 Discussion and Scope of Future Research -- Acknowledgments -- Abbreviations -- References Technik (DE-588)4059205-4 gnd rswk-swf Zuverlässigkeit (DE-588)4059245-5 gnd rswk-swf Zuverlässigkeit (DE-588)4059245-5 s Technik (DE-588)4059205-4 s DE-604 Ram, Mangey 1980- (DE-588)1144926335 edt Erscheint auch als Online-Ausgabe 978-0-429-26892-2 Erscheint auch als Druck-Ausgabe, hardback 978-0-367-21153-0 |
| spellingShingle | Reliability management and engineering challenges and future trends Cover -- Half Title -- Series Page -- Title Page -- Copyright Page -- Table of Contents -- Preface -- Acknowledgments -- Editors -- Contributors -- Chapter 1 An Integrated Robust Hybrid Fuzzy Reliability Model for Redesigning New Products and Systems -- 1.1 Introduction -- 1.2 Literature Review -- 1.3 Model Formation -- 1.3.1 Intuitionistic Fuzzy Set -- Definition 1 -- 1.3.2 Aggregation Operators for the Intuitionistic Fuzzy Set -- Definition 2 (Gümüş & Bali, 2017) -- Definition 3 (Xu & Yager, 2006) -- 1.3.3 TOPSIS and the Proposed Model Algorithm 1.3.4 Introduction of the Mathematical Model for Evaluating Failure Modes Interactions -- 1.4 Numerical Illustration -- 1.4.1 Implementing the IFWG-TOPSIS Model Algorithm for Building Reliability Knowledge -- 1.4.2 A Mathematical Model for Evaluating Failure Modes Interactions -- 1.4.3 Discussion of the Results -- 1.5 Conclusions -- Appendix: MATLAB Code -- Nomenclature -- References -- Chapter 2 Reliability and Cost-Benefit Analysis of a Repairable System under a Cost-Free Warranty Policy with the Repairman Taking Multiple Vacations -- 2.1 Introduction -- 2.2 Background and Literature Review 2.2.1 The Concept of Warranty -- 2.2.1.1 Role of Warranty -- 2.2.1.2 Warranty Cost -- 2.2.2 Warranty Cost Analysis -- 2.2.3 Vacations Model Analysis -- 2.2.4 Overcoming the Limitations of the Literature -- 2.3 Description of the System -- 2.3.1 Assumptions -- 2.3.2 State-Specifications -- 2.3.3 Notations -- 2.4 System Analysis -- 2.4.1 Formulation of the Mathematical Model -- 2.4.2 Solution of the Equations -- 2.4.3 Reliability of the System R(t) -- 2.4.4 Availability of the System Av(t) -- 2.4.5 Busy Period of the Repairman During the Warranty Period 2.4.6 Busy Period of the Repairman Beyond the Warranty Period -- 2.4.7 Vacation Time of the Repairman During the Warranty Period -- 2.4.8 Vacation Time of the Repairman Beyond the Warranty Period -- 2.4.9 Idle Time of the Repairman During the Warranty Period -- 2.4.10 Idle Time of the Repairman Beyond the Warranty Period -- 2.4.11 Profit Analysis of the User -- 2.5 Numerical Results -- 2.5.1 Interpretation of the Numerical Results -- 2.6 Conclusions -- 2.7 Future Research Directions -- References -- Chapter 3 A Bayesian Approach for Parameter Estimation of Ball Bearing Failure Data 3.1 Introduction -- 3.2 Literature Review and Methodology -- 3.3 Lindley Distribution -- 3.4 Basic Definition -- 3.5 Proposed Model -- 3.6 Maximum Likelihood Estimation -- 3.7 Confidence Intervals -- 3.7.1 Asymptotic Confidence Intervals -- 3.7.2 Bootstrap Confidence Interval -- 3.8 Bayesian Estimation -- 3.8.1 Bayesian Intervals -- 3.9 Data Study -- 3.9.1 Simulated Data -- 3.9.2 Real Example -- 3.10 Conclusion -- 3.11 Discussion and Scope of Future Research -- Acknowledgments -- Abbreviations -- References Technik (DE-588)4059205-4 gnd Zuverlässigkeit (DE-588)4059245-5 gnd |
| subject_GND | (DE-588)4059205-4 (DE-588)4059245-5 |
| title | Reliability management and engineering challenges and future trends |
| title_auth | Reliability management and engineering challenges and future trends |
| title_exact_search | Reliability management and engineering challenges and future trends |
| title_exact_search_txtP | Reliability management and engineering challenges and future trends |
| title_full | Reliability management and engineering challenges and future trends edited by Harish Garg and Mangey Ram |
| title_fullStr | Reliability management and engineering challenges and future trends edited by Harish Garg and Mangey Ram |
| title_full_unstemmed | Reliability management and engineering challenges and future trends edited by Harish Garg and Mangey Ram |
| title_short | Reliability management and engineering |
| title_sort | reliability management and engineering challenges and future trends |
| title_sub | challenges and future trends |
| topic | Technik (DE-588)4059205-4 gnd Zuverlässigkeit (DE-588)4059245-5 gnd |
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