Buch, Englisch, 278 Seiten, Format (B × H): 160 mm x 241 mm, Gewicht: 600 g
Buch, Englisch, 278 Seiten, Format (B × H): 160 mm x 241 mm, Gewicht: 600 g
Reihe: Springer Series in Reliability Engineering
ISBN: 978-3-031-27315-5
Verlag: Springer
This is the first book on the Which-Is-Better (WIB) Problem. These are questions that in daily life include such as “Which is larger, younger and stronger?".
The main objective of this book is summarizing WIB Problems in maintenance and reliability theory. Optimal policies of replacement first, last and overtime are derived and compared theoretically and numerically, and WIB policies are determined. Furthermore, the reliability properties of parallel and standby systems are compared, and WIB system is determined. These WIB Problems are applied to shock and damage models and backup and checkpoint models of computer systems.
Zielgruppe
Research
Autoren/Hrsg.
Fachgebiete
- Mathematik | Informatik EDV | Informatik Technische Informatik Hardware: Grundlagen und Allgemeines
- Technische Wissenschaften Energietechnik | Elektrotechnik Elektrotechnik
- Technische Wissenschaften Bauingenieurwesen Gebäudemanagement, Gebäudeschäden
- Naturwissenschaften Physik Angewandte Physik Statistische Physik, Dynamische Systeme
Weitere Infos & Material
1 Introduction 1.1 Maintenance Policies 1.2 Reliability Applications
References
2 Random Age Replacement Model 2.1 Random Replacement 2.2 Replacement First2.3 Replacement Last 2.4 Replacement First and Last 2.5 Replacement Overtime 2.5.1 Replacement Overtime First 2.5.2 Replacement Overtime Last 2.6 Deviation Time 2.7 Problems
References
3 Replacement Model with Minimal Repair 3.1 Random Replacement 3.2 Replacement with Working Number 3.2.1 Replacement First 3.2.2 Replacement Last 3.3 Replacement First and Last 3.4 Replacement with Failure Number 3.4.1 Replacement First 3.4.2 Replacement Last 3.5 Replacement Overtime with Working Number 3.5.1 Replacement First3.5.2 Replacement Last 3.6 Replacement Overtime with Failure Number 3.6.1 Replacement First 3.6.2 Replacement Last 3.7 Replacement with Working and Failure Numbers 3.7.1 Replacement First 3.7.2 Replacement Last 3.8 Problems
References
4 Periodic Replacement Models 4.1 Age Replacement 4.1.1 Replacement First 4.1.2 Replacement Last4.2 Replacement with Working Number 4.2.1 Replacement First 4.2.2 Replacement Last4.3 Replacement with Failure Number 4.3.1 Replacement First 4.3.2 Replacement Last 4.4 Replacement over Failure Number 4.4.1 Replacement First 4.4.2 Replacement Last 4.5 Problems
References
5 Extended Replacement Models 5.1 Replacement with Two Failure Modes 5.1.1 Replacement First 5.1.2 Replacement Last 5.2 Undertime Replacement Model 5.2.1 Age Replacement 5.2.2 Replacement with Minimal Repair 5.3 Middle Replacement Models 5.3.1 Age Replacement 5.3.2 Comparison of Three Policies 5.3.3 Replacement with Minimal Repair 5.3.4 Comparisons of Three Policies5.4 Problems
References6 Which is Better for Standby or Parallel Systems6.1 Reliability Measures 6.1.1 Constant Number of Units6.1.2 Random Number of Units 6.2 Replacement Policies 6.2.1 MTTF for Replacement Time 6.2.2 Replacement for Number of Units6.3 Scheduling of Random Works 6.3.1 Tandem and Parallel Works 6.3.2 Standby and Parallel Systems 6.3.3 Random Tandem Works 6.4 Modi?ed Models 6.5 Problems
References
7 Which is Better Problems in Shock and Damage Models 7.1 Three Replacement Policies 7.2 Optimal Policies with Two Variables 7.3 Exponential Shock Times and Amount of Damage 7.4 Replacement Overtime Policies 7.5 Modi?ed Replacement Models
References
8 Which is Better Problems in Backup Models 8.1 Database Backup Models 8.1.1 Optimal Backup Times8.2 Overtime Backup First 8.2.1 Optimal Backup Times 8.3 Comparisons of Backup First and Overtime 8.4 Database Backup Last8.4.1 Backup Last 8.4.2 Backup Overtime Last 8.5 Problems
References
9 Which is Better Problems in Checkpoint Models 9.1 Periodic Checkpoint Model 9.2 Random Checkpoint Models 9.2.1 Two Kinds of Tasks 9.2.2 Two Kinds of Checkpoints 9.3 Two Examples 9.4 Imperfect Checkpoint Model 9.4.1 Periodic Checkpoint 9.4.2 Random Checkpoint 9.5 Problems
References
Appendix A: Extended Failure Rates References A.1 Properties of Failure Rate f(t)/F(t) for Age Replacement A.2 Properties of Failure Rate h(t) for Replacement with MinimalRepairA.3 Properties of Failure Rates f(t)/F(t) for Periodic Replacement A.4 Properties of Failure Rates h(t) for Periodic ReplacementA.5 Properties of Failure Rates h(t) for Replacement Over FailureNumber A.6 Properties of Failure Rates for Extended ReplacementA.7 Properties of Failure Rates for Shock and Damage Models
References
Appendix B: Answer to Selected Problesms
Index
