• Title/Summary/Keyword: minimal repair

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Optimal Age Replacement Policy for a Repairable System with Increasing Minimal Repair Times at Failure (수리시간이 증가하는 수리가능한 시스템에서의 최적 교체시간의 결정)

  • 차지환;이강현;김재주
    • Journal of Korean Society for Quality Management
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    • v.28 no.3
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    • pp.53-58
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    • 2000
  • In many cases, it is more practical and economical to repair a system than to replace the whole system or to perform a complete overhaul when it fails. The age replacement policy with minimal repair at failure is considered. The system is replaced every time its age reaches at $T_0$. For each intervening failure only minimal repair is done. The minimal repair times in a renewal period are increasing in the sense that the minimal repair times constitute a strictly increasing geometric process. The long-run expected cost rate Is obtained and the properties of the existence and the uniqueness of the optimal policy minimizing the long-run expected cost rate are derived.

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Extended warranty model under minimal repair-replacement warranty policy

  • Jung, Ki Mun
    • International Journal of Reliability and Applications
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    • v.18 no.1
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    • pp.1-8
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    • 2017
  • In this paper, we study an extended warranty model under minimal repair-replacement warranty (MRRW) which is suggested by Park, Jung and Park (2013). Under MRRW policy, the manufacturer is responsible for providing the minimal repair-replacement services upon the system failures during the warranty period. And if the failure occurs during the extended warranty period, only the minimal repair is conducted. Following the expiration of extended warranty, the user is solely responsible for maintaining the system for a fixed length of time period and replaces the system at the end of such a maintenance period. During the maintenance period, only the minimally repair is given for each system failure. The main purpose of this article is to suggest the extended warranty and replacement model with MRRW. Given the cost structures incurred during the life cycle of the system, we formulate the expected cost and the expected length of life cycle to obtain the expected cost rate.

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Replacement model under warranty with age-dependent minimal repair

  • Park, Minjae
    • International Journal of Reliability and Applications
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    • v.18 no.1
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    • pp.9-20
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    • 2017
  • In this paper, we consider a renewable repair-replacement warranty strategy with age-dependent minimal repair service and propose an optimal maintenance model during post-warranty period. Such model implements the repair time limit under warranty and follows with a certain form of system maintenance strategy when the warranty expires. The expected cost rate is investigated per unit time during the life period of the system as for the standard for optimality. Based on the cost design defined for each failure of the system, the expected cost rate is derived during the life period of the system, considering that a renewable minimal repair-replacement warranty strategy with the repair time limit is provided to the customer under warranty. When the warranty is finished, the maintenance of the system is the customer's responsibility. The life period of the system is defined and the expected cost rate is developed from the viewpoint of the customer's perspective. We obtain the optimal maintenance strategy during the maintenance period by minimizing such a cost rate after a warranty expires. Numerical examples using field data are shown to exemplify the application of the methodologies proposed in this paper.

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The Optimal Limit of the Number of COnsecutive Minimal Repairs

  • Jongho Bae;Lee, Eui-Yong
    • Journal of the Korean Statistical Society
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    • v.30 no.1
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    • pp.89-98
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    • 2001
  • Brown and Proschan(1983) introduced a model for imperfect repair. At each failure of a device, with probability p, it is repaired completely or replaced with a new device(perfect repair), and with probability 1-p, it is returned to the functioning state, but it is only recovered to its condition just prior to failure(imperfect repair or minimal repair). In this paper, we limit the number of consecutive minimal repairs by n. We find some useful properties about $\mu$$_{k}$, the expected time between the k-th and the (k+1)-st repair under he assumption that only minimal repairs are performed. Then, we assign cost to each repair and find the value of n which minimized the long-run average cost for a fixed p under the condition that the life distribution F os the device is DMRL.L.

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On the Steady State Availability of Age-Dependent Minimal Repair Model

  • Cha, Ji-Hwan;Kim, Jae-Joo
    • 한국데이터정보과학회:학술대회논문집
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    • 2002.06a
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    • pp.17-22
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    • 2002
  • Availability is an important characteristic of a repairable component. Iyer(1992) obtained the 'limiting efficiency'(not the `steady state availability') of the age-dependent minimal repair model which was first considered by Block et al.(1985). However the existence of the steady state availability of the model has not been reported. In this note, the existence of the steady state availability of the model is shown and a brief remark on the importance of the property is given.

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The Optimal Limit of the Number of Consecutive Minimal Repairs

  • Jongho Bae;Lee, Eui-Yong
    • Proceedings of the Korean Reliability Society Conference
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    • 2000.04a
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    • pp.63-70
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    • 2000
  • Brown and Proschan(1983) introduced a model for imperfect repair. At each feilure of a device, with probability p, it is repaired completely or replaced with a new device(perfect repair), and with probability 1 - p, it is returned to the functioning state, but it is only recovered to its condition just prior to failure(imperfect repair or minimal repair). In this paper, we limit the number of consecutive minimal repairs by n. We find some useful properties about ${\mu}$$\_$k/, the expected time between the k-th and the (k + 1)-st repair under the assumption that only minimal repairs are performed. Then, we assign cost to each repair and find the value of n which minimizes the long-run average cost for a fixed p under the condition that distribution F of the device is DMRL.

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A Corrective Maintenance Policy Which Determines Replacement or Repair for the Maintenance of System Failures

  • Jang, Jae-Jin;Lie, Chang-Hoon
    • Journal of the military operations research society of Korea
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    • v.15 no.1
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    • pp.54-62
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    • 1989
  • This paper presents a corrective maintenance model to determine either type of maintenance actions upon failure of the system. Types of maintenance actions considered are minimal repair and replacement. Minimal repair cost is assumed to be random, whereas replacement cost is fixed. A policy, B(t), which determines the type of maintenance action based on the estimated minimal repair cost when the system fails at time t is adopted. To obtain an optimal policy, an expected maintenance cost per unit time is derived and is minimized with respect to B(t).

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Preventive Replacement Policy under Increasing Minimal Repair Costs at Failure (수리비용이 증가할 때의 수리 사용 후 교환정책)

  • Park Sung-Bum;Kim Young-Min
    • Journal of the Korea Safety Management & Science
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    • v.8 no.2
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    • pp.139-153
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    • 2006
  • This paper deals with two forms of preventive replacement policy with minimal repair at failure. Those are, 1. the replacement policy I based on the cumulative operating time. 2. the replacement policy II based on the number of failures. The basic assumptions are; (1) the cost of minimal repair at failure is increasing with the number of failures since the last replacement, (2) the equipment fails stochastically with time.

Optimal replacement strategy under repair warranty with age-dependent minimal repair cost

  • Jung, K.M.
    • International Journal of Reliability and Applications
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    • v.12 no.2
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    • pp.117-122
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    • 2011
  • In this paper, we suggest the optimal replacement policy following the expiration of repair warranty when the cost of minimal repair depends on the age of system. To do so, we first explain the replacement model under repair warranty. And then the optimal replacement policy following the expiration of repair warranty is discussed from the user's point of view. The criterion used to determine the optimality of the replacement model is the expected cost rate per unit time, which is obtained from the expected cycle length and the expected total cost for our replacement model. The numerical examples are given for illustrative purpose.

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A Periodic Replacement Model with Random Repair Costs and Threshold Levels (확률적 수리비용과 임계수준을 고려한 주기적 교체 모형에 관한 연구)

  • Gang Yeong-Gil;Gang Seong-Jin
    • Journal of the military operations research society of Korea
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    • v.18 no.2
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    • pp.114-125
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    • 1992
  • A policy of periodic replacement with minimal repair at failure is considered for a complex system. Under such a policy the system is replaced at periodic times. iT(i=1,2, $\ldots$), while minimal repair is performed at any intervening system failures. The cost of the j-th minimal repair to the component which fails at age t is g(C(t). $c_j$ (t)), where C(t) is the age-dependent random part, $c_j$(t) is the deterministic part which depends on the age and the number of the minimal repair to the component, and g is a positive nondecreasing continuous function. The cost of replacement is expensive when the number of failures occurring in (0. T) is greater than a threshold level. The problem of determining the optimal replacement period, $T^{\ast}$, which minimizes the total expected cost per unit time over an infinite time horizon is considered. Various special cases are considered.

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