GRAPHICAL/STATISTICAL APPROACH TO REPAIR LIMIT REPLACEMENT PROBLEM
スポンサーリンク
概要
- 論文の詳細を見る
The total time on test (TTT) concept has proved to be a very useful tool in many reliability applications. The graphical solution procedure based on this concept gives geometrical interpretations to the solutions of reliability problems as well as the optimal policies from empirical data directly. In fact, some kinds of reliability models such as age replacement and burn-in problems have been analyzed by applying the TTT concept. In this paper, we discuss the optimal repair limit replacement policy, which determines the timing to stop repairing a unit after it fails. We propose two kinds of solution procedures for the repair limit replacement problem with a time constraint, where one is a straightforward/algebraic procedure and another is a geometrical one based on the TTT concept. Also, we develop a computer software utilizing the computer graphics to calculate the optimal repair limit policy numerically, and refer to its educational effect.
- 社団法人日本オペレーションズ・リサーチ学会の論文
著者
-
OSAKI Shunji
Nanzan University
-
DOHI Tadashi
Department of Information Engineering, Hiroshima University
-
Kaio N
Hiroshima Shudo Univ. Hiroshima Jpn
-
Kaio Naoto
Department Of Economic Informatics Faculty Of Economic Sciences Hiroshima Shudo University
-
Dohi T
Hiroshima Univ. Higashi‐hiroshima‐shi Jpn
-
Dohi Tadashi
Department Of Information Engineering Graduate School Of Engineering Hiroshima University
-
Osaki S
Nanzan University
-
Osaki Shunji
Department Of Industrial And Systems Engineering Hiroshima University
-
Kaio Naoto
Hiroshima Shudo Univ. Hiroshima Jpn
-
Koshimae Hirofumi
Hiroshima University
-
Koshimae H
Hiroshima University
関連論文
- 1-C-1 A 5-hand RPS leader election algorithm
- 1-D-4 Deadlock Detection Scheduling for Distributed Processes in the Presence of System Failures
- Computational Aspects of Optimal Checkpoint Strategy in Fault-Tolerant Database Management
- Estimating Periodic Software Rejuvenation Schedules under Discrete-Time Operation Circumstance
- Software Reliability Modeling Based on Capture-Recapture Sampling
- A Cyber-Attack Detection Model Based on Multivariate Analyses
- Discrete Availability Models to Rejuvenate a Telecommunication Billing Application(Network Systems and Applications)(Assurance Systems and Networks)
- A Generalized Discrete-Time Order-Replacement Model
- Maximizing Interval Reliability in a Periodic Rejuvenation Model
- Determination of Cost-Effective Preventive Maintenance Schedule for a Telecommunication Software System
- DETERMINATION OF OPTIMAL REPAIR-COST LIMIT ON THE LORENZ CURVE
- A Simulation Study to Analyze Unreliable File Systems with Checkpointing and Rollback Recovery(Special Section on Reliability Theory and Its Applications)
- GRAPHICAL/STATISTICAL APPROACH TO REPAIR LIMIT REPLACEMENT PROBLEM
- An Economical Analysis for a Hybrid Data Backup System
- CONTINUOUS REVIEW CYCLIC INVENTORY MODELS WITH EMERGENCY ORDER
- A Note on Optimal Checkpoint Sequence Taking Account of Preventive Maintenance (Special Section on Reliability)
- Optimal Checkpointing Policies Using the Checkpointing Density
- Rejuvenating Communication Network System under Burst Arrival Circumstances(Traffic Issues, Autonomous Decentralized Systems)
- Dependability Analysis of a Transaction-Based Multi-Server System with Rejuvenation (Reliability, Maintainability and Safety Analysis)
- An Estimation of Software Reliability Models Based on EM Algorithm
- Performance Evaluation of Workload-Based Software Rejuvenation Scheme(IEICE/IEEE Joint Special Issue on Autonomous Decentralized Systems and Systems' Assurance)
- Software Reliability Measurement with Prior-Information on Initial Fault Content
- Cost-Effective Analysis of Software Systems with Periodic Rejuvenation(Regular Section)
- A Component-Based Jelinski & Moranda Software Reliability Model
- Preventive Maintenance for a Software System with High Assurance Requirement
- Comparing Software Rejuvenation Policies under Different Dependability Measures(Dependable Computing)
- JOINT DISTRIBUTION OF UPTIME AND DOWNTIME FOR SOME REPAIRABLE SYSTEMS
- Fine-Grained Shock Models to Rejuvenate Software Systems(Assurance Systems and Networks)
- Behavioral Analysis of a Fault-Tolerant Software System with Rejuvenation(Autonomous Decentralized Systems)
- Optimal Design of Unreliable Production : Inventory Systems with Variable production Rate
- A Note Estimation of Software Defect Density Based on the Module Size Distribution(Special Section on Papers Selected from ITC-CSCC 2002)
- 2-E-2 A Delay-time-based Unreliable Economic Manufacturing Model with Minimal Repairs
- NHPP-Based Software Reliability Models Using Equilibrium Distribution
- Application of Markov Chain Monte Carlo Random Testing to Test Case Prioritization in Regression Testing
- NHPP-Based Software Reliability Models Using Equilibrium Distribution