• Title/Summary/Keyword: CSP(Concurrent Spare Part)

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A Study on Genetic Algorithm of Concurrent Spare Part Selection for Imported Weapon Systems (국외구매 무기체계에 대한 동시조달수리부속 선정 유전자 알고리즘 연구)

  • Cho, Hyun-Ki;Kim, Woo-Je
    • Journal of Korean Institute of Industrial Engineers
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    • v.36 no.3
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    • pp.164-175
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    • 2010
  • In this study, we developed a genetic algorithm to find a near optimal solution of concurrent spare parts selection for the operational time period with limited information of weapon systems purchased from overseas. Through the analysis of time profiles related with system operations, we first define the optimization goal which maintains the expected system operating rate under the budget restrictions, and the number of failures and the lead time for each spare part are used to calculate the estimated total down time of the system. The genetic algorithm for CSP selection shows that the objective function minimizes the estimated total down time of systems with satisfying the restrictions. The method provided by this study can be applied to the generalized model of CSP selection for the systems purchased from overseas without provision of their full structure and adequate information.

Provisioning Quantity Determination of Repairable Concurrent Spare Part under Budget Constraint and Cannibalization Allowed (자금제약하에서 동류전용이 허용될 때 수리가능한 동시조달부품의 적정소요량 결정)

  • Oh, Geun-Tae;Na, Yoon-Kyoon
    • Journal of Applied Reliability
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    • v.12 no.3
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    • pp.225-238
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    • 2012
  • In this paper determined is the quantity of repairable concurrent spare parts(CSP) of a new equipment system to maximize the operational availability under budget constraint and cannibalization allowed. When a part fails, the part is replaced and the failed part is repaired for later use while cannibalization is allowed. The failure of a part is assumed to follow a Poisson process and the availability in CSP is defined. The solution procedure consists of two parts. Firstly, a mathematical model is developed under the assumption that the failure rate is constant during the CSP period and cannibalization is not allowed. Secondly, proposed is a simulation search procedure which improves the heuristic solution to the near optimal solution in a reasonable amount of time under the assumption that the cannibalization is allowed.

Provisioning Quantity Determination of Consumable Concurrent Spare Part with Objective Availability Limitation under Cannibalization Allowed (부품재활용이 허용될 때 목표운용가용도 조건을 갖는 소모성 동시조달부품의 구매량 결정)

  • Oh, Geun-Tae;Kim, Myeong-Su
    • Journal of Applied Reliability
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    • v.4 no.2
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    • pp.91-104
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    • 2004
  • In this paper we consider the concurrent spare part(CSP) requirements problem of new equipment system. When a part fails, the part is replaced and the repair of failed part is impossible and cannibalization is allowed. We assume that the failure of a part knows a Poisson process. The operational availability concept in CSP is defined, and derive a formula to calculate the operational availability using expected machine operating time during CSP period. A mathematical model is derived for making an CSP requirement determination subject to the constraint of satisfying any given operational availability limitation and an heuristic solution search procedure is derived. An illustrative example is shown to explain the solution procedure.

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Provisioning Quantity Determination of Consumable Concurrent Spare Part Under Availability Constraint and Cannibalization Allowed (운용가용도 제약하에서 동류전용이 허용될 때 소모성 동시조달부품의 적정구매량 결정)

  • Oh, Geun-Tae;Na, Yoon-Kyoon;Kim, Myung-Soo
    • Journal of Korean Society of Industrial and Systems Engineering
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    • v.33 no.3
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    • pp.199-207
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    • 2010
  • In this paper considered is the provisioning quantity determination problem of consumable concurrent spare parts (CSP) of a new equipment system to minimize the procurement cost under the operational availability constraint. When a part fails, repair of the failed part is impossible and the part is replaced and cannibalization is allowed. The failure of a part is assumed to follow a Poisson process and the operational availability in CSP is defined. The solution procedure consists of two parts. Firstly, a heuristic algorithm is developed under the assumption that the failure rate is constant during the CSP period. Secondly, proposed is a simulation search procedure which improves the heuristic solution to the near optimal solution in a reasonable amount of time. An illustrative example is shown to explain the solution procedure.

The Computing Model of Demand Quantity for Optimal Current Spare Parts considering the Operational Availability under Budget (예산제약 하에서 운용가용도를 고려한 최적 동시조달수리부속품 소요 산출 모델)

  • Na, In-Sung;Lee, Kye-Kyong;Park, Myeong-Kyu
    • Journal of the Korea Safety Management & Science
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    • v.8 no.5
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    • pp.167-180
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    • 2006
  • This study expands limitation of OASIS(Optimal Allocation of Spares for Initial Supports) program, which calculates CSP(Concurrent Spare Part), not only availability but also cost, and developed the program enabling run in WINDOW OS. By considering multi-step repair and logistics support system, repairing capability at the time of deployment, and procurement period, this model is the first local model reflecting circumstances of the armed forces of the Republic of Korea. Furthermore, the programmed model was selected as the military standard software and has being essentially used for CSP calculation.

Provisioning Quantity Determination of Consumable Concurrent Spare Part under Cannibalization Allowed (부품재활용이 허용될 때 소모성 동시조달부품의 적정구매량 결정)

  • Oh Geun-Tae;Na Yoon-Kyoon
    • Journal of Korean Society of Industrial and Systems Engineering
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    • v.28 no.1
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    • pp.97-104
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    • 2005
  • Considered is the concurrent spare part(CSP) requirements problem of new equipment system. In the considered system, when a part fails, the part cannot be repaired and should be replaced. In addition, cannibalization is allowed. It is assumed that the failure of a part follows a Poisson process. The operational availability concept in CSP is defined, and a formula is derived to calculate the operational availability using expected machine operating time during CSP period. The problem is formulated as the operational availability maximization problem with available budget constraint and a heuristic solution search procedure is developed. An illustrative example is shown to explain the solution procedure.

Optimal Provisioning Quantity Determination of Concurrent Spare Part under the Funds Limitation (자금 제약하에서의 동시조달부품의 최적 구매량 결정)

  • 오근태
    • Journal of Korean Society of Industrial and Systems Engineering
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    • v.20 no.41
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    • pp.123-134
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    • 1997
  • In this paper we consider the CSP requirements determination problem of new equipment system. The CSP we deal with in the paper are restricted to the demand-based spare parts. For the newly procured equipment systems, mathematical analyses are made for the system which is constructed with the repairable items to derive the associated CSP requirement determination model in mathematical expression, respectively. Based on these analyses, a mathematical model is derived for making an optimal CSP requirement determination subject to the constraint of satisfying any given funds limitation. We assume that the failure of a part follows a Poisson process. Firstly, the operational availability concept in CSP is defined and the relation between the general system availability and the operational availability is established. Secondly, the problem is formulated as the operational availability maximization problem that should satisfy the funds limitation, and then, using the generalized Lagrange multipliers method, the optimal solution procedure is derived.

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Provisioning Quantity Determination of Partially Repairable Concurrent Spare Parts under the Availability Limitation (운용가용도제약하에서 일정 비율 수리가능한 동시조달부품의 구매량 결정)

  • 오근태;김명수
    • Journal of Applied Reliability
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    • v.2 no.2
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    • pp.85-97
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    • 2002
  • In this paper, partially repairable concurrent spare parts requirement determination problem of newly procured equipment systems is considered. “partially repairable” means that a portion of damaged parts can be recover their function and reused after repairs. A mathematical model is derived for making an CSP requirement determination subject to the constraint of satisfying any given operational availability limitation. We assume that the failure of a part follows a Poisson process and the repair time has an exponential distribution. Using the generalized Lagrange multipliers method, the solution procedure is derived.

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Optimization for Concurrent Spare Part with Simulation and Multiple Regression (시뮬레이션과 다중 회귀모형을 이용한 동시조달수리부속 최적화)

  • Kim, Kyung-Rok;Yong, Hwa-Young;Kwon, Ki-Sang
    • Journal of the Korea Society for Simulation
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    • v.21 no.3
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    • pp.79-88
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    • 2012
  • Recently, the study in efficient operation, maintenance, and equipment-design have been growing rapidly in military industry to meet the required missions. Through out these studies, the importance of Concurrent Spare Parts(CSP) are emphasized. The CSP, which is critical to the operation and maintenance to enhance the availability, is offered together when a equipment is delivered. Despite its significance, th responsibility for determining the range and depth of CSP are done from administrative decision rather than engineering analysis. The purpose of the paper is to optimize the number of CSP per item using simulation and multiple regression. First, the result, as the change of operational availability, was gained from changing the number of change in simulation model. Second, mathematical regression was computed from the input and output data, and the number of CSP was optimized by multiple regression and linear programming; the constraint condition is the cost for optimization. The advantage of this study is to respond with the transition of constraint condition quickly. The cost per item is consistently altered in the development state of equipment. The speed of analysis, that simulation method is continuously performed whenever constraint condition is repeatedly altered, would be down. Therefore, this study is suitable for real development environment. In the future, the study based on the above concept improves the accuracy of optimization by the technical progress of multiple regression.

Optimal Provisioning Quantity Determination of Consumable Concurrent Spare Part under the Availability Limitation (운용가용도 제약하에서의 소모성 동시조달부품의 최적구매량 결정)

  • 오근태;김명수
    • Journal of Korean Society of Industrial and Systems Engineering
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    • v.21 no.48
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    • pp.113-122
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    • 1998
  • In this paper we consider the CSP requirements determination problem of new equipment(machine) system. For the newly procured equipment systems, mathematical analyses are made for the system which is constructed with the consumable parts to derive the associated CSP requirement determination model in mathematical expression. Based on these analyses, a mathematical model is derived for making an optimal CSP requirement determination subject to tile constraint of satisfying any given operational availability limitation. We assume that the failure of a part follows a Poisson process. Firstly, the operational availability concept in CSP is defined and the relation between the general system availability and the operational availability is established. Secondly, the problem is formulated as the cost minimization problem that should satisfy the operational availability limitation, and then, using the generalized Lagrange multipliers method, the optimal solution procedure is derived.

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