• Title/Summary/Keyword: Cost item

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선별후 양품의 비율에 대한 제약조건을 갖는 선별검사방식의 경제적 설계 (Economic Design of Screening Procedures under the Constraint on the Proportion of Conforming Items after Screening)

  • 홍성훈
    • 대한산업공학회지
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    • 제19권3호
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    • pp.25-35
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    • 1993
  • Economic screening procedures using a correlated variable are proposed to assure that the proportion of conforming items is above a desired level after screening. It is assumed that the performance variable and the screening variable are jointly normally distributed. Two screening procedures are considered. In the first screening procedure, all of the items are inspected on the screening variable. If an item fails to meet the screening specifications, it is rejected and excluded from shipment without inspection of the performance variable. In the second screening procedure, the item which fails to meet the screening specifications is inspected on the performance variable. If the value of the performance variable is within specifications the item is accepted, and the item is rejected otherwise. Cost models are constructed which involve cast from an accepted nonconforming item, cost from a rejected item, and quality inspection cost. Methods of finding optimal cutoff value on a screening variable are presented and numerical examples are given.

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복수품목 랜덤 결함주문정책의 최적해와 비교 (Optimal Solution and Comparison for the Augmented Multi-item Random Orders)

  • 권희철;김만식
    • 산업경영시스템학회지
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    • 제10권16호
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    • pp.129-132
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    • 1987
  • Multi-item inventory problems can be well characterized by the nature of interaction of the quantities and timing. This interaction may be due to the effect of certain combination of orders. It is that the set-up cost of ordering individual items can be saved by jointly ordering at a time. This study finds a decision criteria of optimum inventory policy through the comparisons of individual multi-item order policy(IMP), joint multi-item order policy(JMP), augmented multi-item order policy(AMP) in cost ratio. Subsequently we assume that there exists a unique optimum order level corresponding to an optimum reorder range for the augmented multi-item order, at which a cost saying is maximum.

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수리가능한 아이템의 최적무상보증기간 (Optimum Free Warranty Interval for Repairable Items)

  • 정영배
    • 산업경영시스템학회지
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    • 제21권45호
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    • pp.301-307
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    • 1998
  • This paper proposes free warranty interval for repairable items when the failure types of item are considered. Failure types are classified into major failure and minor failure. If major failure occurs during warranty period, the item is replaced and if minor failure occurs during warranty period, the item is minimally repaired. This paper determines the optimum free warranty interval which minimizes total expected cost of the free warranty cost model. Numerical example is shown in which failure time of item has weibull distribution.

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대용특성을 이용한 예방정비모형 : 주기적으로 관측하는 경우 (Preventive Replacement Model Based on Substitutive Characteristics : the case of periodic observation)

  • 구자항;장중순;김원중
    • 품질경영학회지
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    • 제20권2호
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    • pp.33-43
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    • 1992
  • Items are assumed to fail by degradation. An appropriate stochastic model of such item is a cumulative process in which an item can fail only when the total amount of wear exceeds a prespecified failure level. This paper presents replacement policy in which an item is replaced at a certain level of wear before failure or at failure, whichever occurs first. Yet, when measuring the item wear level is very expensive, destructive or time-consuming, it may be economical to use substitutive characteristics that are correlated with the item wear level and relatively inexpensive to measure. The item's wear level could usually be estimated by monitoring such substitutive characteristics only except for a breakdown, which may be observed immediately at its occurrence. The purpose of this paper is to find an optimal periodic replacement policy based on such substitutive characteristics that balance the cost of replacement with the cost of failure and result in a minimum total long-run average cost per unit time. The optimal level of substitutive characteristics to replace the item is obtained. Numerical example illustrate how the model can be used to determine the optimal replacement policy.

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단계별 사후보증제도와 무료, 비율, 혼합형 보증제도에서 제조업자 입장의 비용분석 (Cost Analysis of Manufacturer Under the Free Replacement, Pro-rata, Hybrid and Stepdown Warranty Policy)

  • 김원중;김재중
    • 산업경영시스템학회지
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    • 제12권20호
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    • pp.39-45
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    • 1989
  • This article is concerned with cost analysis in product warranty policy. The warranty cost can be different according to warranty rate and warranty renewal policy. In this paper the stepdown warranty is used. The warranty renewal policy is considered when the warranty is received upon free replacement period as item failing. Assuming the non repairable item as one item is sold, investigated manufacturer's cost in stepdown warranty policy. Also manufacturer's cost is calculated in the free replacement. pro-rata. hybrid policy. Numerical example is given over Weibull time to failure distribution, comparing stepdown warranty policy with free replacement, pro-rata, hybrid one in the manufacturer's point of view. The sensitivity analysis of warranty cost according to the number of warranty period step is included.

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정기보전 제도에서 응급수리를 고려한 대체품 수리정책에서의 비용분석 모델 (Cost Analysis Model with Minimal Repair of Spare Unit Repair Policy under Periodic Maintenance Policy)

  • 김재중
    • 한국신뢰성학회지:신뢰성응용연구
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    • 제6권2호
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    • pp.151-161
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    • 2006
  • This article is concerned with cost analysis model in periodic maintenance policy. The repair policy is differently applied according as unit importance during an item being used and unit restoration during an item being failed. So in this paper the repair policy with minimal repair is considered as follow : as the occurrence of failure between minimal repair and periodic interval time, unit is replaced by a spare unit until the periodic maintenance time arrived. Then total expected cost per unit time is calculated according to scale parameter of failure distribution in a view of customer's. The total expected costs are included repair and usage cost : operating, fixed, minimal repair, periodic maintenance and spare unit cost. Numerical example is shown in which failure time of item has Erlang distribution.

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보전비용요소를 고려한 정기보전정책의 비용분석모델 (Cost Analysis Model for Periodic Maintenance Policy with Maintenance Cost Factor)

  • 김재중;김원중
    • 산업경영시스템학회지
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    • 제18권36호
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    • pp.287-295
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    • 1995
  • This paper is concerned with cost analysis model in periodic maintenance policy. Generally periodic maintenance policy in which item is repaired periodic interval times. And in the article minimal repair is considered. Mimimal repair means that if a unit fails, unit is instantaneously restored to same hazard rate curve as before failure. In the paper periodic maintenance policy with minimal repair is as follows; Operating unit is periodically replaced in periodic maintenance time, if a failure occurs between minimal repair and periodic maintenance time, unit is replaced by a new item until tile periodic maintenance time comes. Also unit undergoes minimal repair at failures in minimal-repair-for-failure interval. Then total expected cost per unit time is calculated according to scale parameter of failure distribution. Maintenance cost factors are included operating, fixed, minimal repair, periodic maintenance and new item replacement cost. Numerical example is shown in which failure time of system has weibull distribution.

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정기검사하에서 준비태세의 부품에 대한 최적예방교환 (Optimal Preventive Replacement under Periodic Inspections for an Item in Preparedness)

  • 공명복;원영철
    • 대한산업공학회지
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    • 제22권4호
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    • pp.651-662
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    • 1996
  • This paper concerns with preventive replacement under periodic inspections for an item (system) which is in a state of preparedness. The item is subject to wear. The item fails randomly but the failure rate depends on the accumulated wear. The item is preventively replaced if it survives a certain wear limit at periodic inspections. The foiled item is, however, replaced at periodic inspections. Given the costs for replacements and inspections, and the penalty cost of the time elapsed between failure und its detection, the optimal wear limit according to the long-run expected cost per unit time criterion is derived. It has been proved that the optimal wear limit is unique if an item has increasing weer-dependent failure rate. A numerical example for a stationary gamma wear process with Weibull distributed failure is given to show its applicability.

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PH 수명분포를 갖는 보증제품의 수리-교체 전략 (Repair-Replacement Strategies for Warrantied Items with Phase-Type Lifetimes)

  • 김호균;배창옥;김승철
    • 한국경영과학회:학술대회논문집
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    • 한국경영과학회/대한산업공학회 2005년도 춘계공동학술대회 발표논문
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    • pp.686-691
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    • 2005
  • We are concerned with the question of servicing warranties for repairable items. During the warranty period, each time an item fails the manufacturer has the obligation to restore the item to operational condition either by repairing the item or by replacing it by a new item. In this paper, we consider the repair-replacement strategies based on the condition of the failed item. For products with phase-type lifetime distributions where the phases represent the condition of the item, we develop algorithms to determine the expected cost of servicing a warranty and use it in making the repair-replacement decision. Illustrative numerical examples are presented. We also propose a dynamic strategy by taking the expected remaining warranty cost into consideration.

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PH 수명분포를 갖는 보증제품의 수리-교체 전략 (Repair-Replacement Strategies for Warranted Items with Phase-Type Lifetimes)

  • 김호균;;배창옥;김승철
    • 대한산업공학회지
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    • 제31권4호
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    • pp.341-348
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    • 2005
  • This paper is concerned with the question of servicing warranties for repairable items. During the warranty period, each time an item fails the manufacturer has the obligation to restore the item to operational condition either by repairing the item or by replacing it with a new item. In this paper, we consider repair-replacement strategies based on the condition of the failed item. For products with phase-type lifetime distributions where the phases represent the condition of the item, we develop algorithms to determine the expected cost of servicing a warranty and use it in making the repair-replacement decision. Illustrative numerical examples are presented. We also propose a dynamic strategy by taking the expected remaining warranty cost into consideration.