• Title/Summary/Keyword: stock inventory cost

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Determination of Safety Stock in a Multi-Echelon Inventory System (다단계 재고 시스템의 안전재고의 결정)

  • ;;Kim, J. J.;Shim, J. H.
    • Journal of the Korean Operations Research and Management Science Society
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    • v.15 no.1
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    • pp.63-72
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    • 1990
  • This problem in this paper concerns the determination of safety stock for multi-echelon invenetory system. In this model the criterion is to minimize system safety stock subject to a service level constraint and expected annual total cost. Then, safety stock is determined by minimizing expected annual total cost and satisfying given service level. This expected annual total cost is obtained by expected total inventory holding cost plus the expected total stockout cost. Numerical example is given in a three-echelon inventory system. The results obtained by the use of the Hill Algorithm.

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A Simulation Study for the Inventory Pooling Effect (재고풀링효과의 시뮬레이션 연구)

  • Jung, Jaeheon
    • Journal of Korean Society of Industrial and Systems Engineering
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    • v.35 no.4
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    • pp.211-218
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    • 2012
  • We analyzed the effect of inventory pooling on the system where multiple depot was used to replenish retailers and where inventories are kept only on the depots. Inventory pooling consists of inventory integration and inventory exchange. We used simulation for checking the cost saving effect of reducing the number of depot (Inventory Integration) for the case when inventories kept on every depots are commonly used for all retailers when certain depot have stock out for their retailer assigned to them (Inventory Exchange) with the constraint of service level. Simulation on wide range of parameter settings results show that cost saving effect from inventory integration diminishes when transportation cost between depot and retailers or stock out cost, or retailer number increases. The effect becomes stronger when the demands on retailers have bigger variance or average. Also the results show that the cost saving effect from inventory exchange becomes stronger on the same situation when inventory integration effect becomes stronger.

Determination of Number of AGVs in Multi-path Systems By Using Genetic Algorithm (GA를 이용한 다중루프 시스템의 AGV 대수 결정 문제)

  • 김환성;이상훈
    • 제어로봇시스템학회:학술대회논문집
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    • 2000.10a
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    • pp.299-299
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    • 2000
  • In this paper, a determination method of number of AGVs fer introducing to the multi-path material handling systems is presented by using genetic algorithm. For serving the raw material to each work stations automatically, there needs to introduce a AGVs for transfer the raw martial. To reduce the overall production cost in the material handling systems, however, a trade off exists between the amount of inventory hold on the shop floor and the number of AGVs needed to provide adequate service. In this paper, firstly a objective function which included the net present fixed costs of each stations and each purchased AGVs, delivering cost. stock inventory cost, and safety stock inventory cost is presented. Secondly by using genetic algorithm, the optimal reorder quantity at each stations is decided, where the number of AGVs is increased step by step. From a simulation with different GA parameters, we can determine a optimal number of AGVs to reduce the overall production cost. Thus, the effectiveness of GA for determining the number of AGVs is verified in automated material handling systems.

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A Simulation Study for the Inventory Policy in the 2 Echelon System (시뮬레이션을 통한 2단계 재고시스템에서의 재고정책 비교연구)

  • Jung, Jaeheon
    • Journal of Korean Society of Industrial and Systems Engineering
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    • v.38 no.3
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    • pp.136-148
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    • 2015
  • We analyzed the effect of three different types of inventory systems for saving the total cost using simulation on the system where multiple depots and many retailers disperse on the limited area. Three types of inventory systems are single echelon system with inventory exchange and two-echelon system and the variant two-echelon system. Variant two echelon system is the two-echelon system where the inventory transshipmentsare allowed on every two stage inventory echelons. Inventories kept on every retailer are commonly used for all retailers when certain retailer has stock-out. And when all retailers are stock-out, inventories kept on every depot are commonly used for the retailers whose assigned depots are stock-out. These all three systems are simulated with the constraint of service level on wide range of parameter settings. Simulation results show that cost saving effect appear clear for single echelon system and two-echelon system when shortage cost portion and transportation cost portion becomes large respectively irrespective of depot number. Variant two echelon system seems to be superior to two other systems when transportationcost portion becomes very small. But this superiority is not proved in terms of statistics. So we may conclude that the variant two echelon system may be useless with the higher administrative efforts due to frequent inventory exchange. Also we note that the traditional two echelon system becomes inferior to two other systems in terms of statistics when service level becomes high or when demand variance becomes very large. And inventory integration effect that cost becomes saved when depot number decrease, diminishes when transportation cost or stock-out cost increases irrespective of inventory systems.

Determination of Number of AGVs in Multi-Path Systems By Using Genetic Algorithm (GA를 이용한 다중경로의 시스템의 AGV 대수 결정 문제)

  • Kim, Hwan-Seong;Lee, Sang-Hun
    • Journal of Institute of Control, Robotics and Systems
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    • v.7 no.4
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    • pp.319-325
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    • 2001
  • Recently. AGV systems are used to serve the raw material to each work stations automatically. There exists a trade-off between the adequate service supply and the number of purchased AGVs. Also, to reduce the overall production cost, the amount of inventory hold on the shop floor should be considered. In this paper, we present a heuristic technique for determining the number of AGVs which includes the net present fixed costs of each station, each purchased AGV, delivering cost, stock inventory cost, and safety stock inventory cost. Secondly, by using a genetic algorithm, the optimal number of AGVs and the optimal reorder quantity at each station are decided. Lastly, to verify then heuristic algorithm, we have done a computer simulation with different GA parameters.

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Optimal Stock Lovels for Parallel-Type Inventory System with Redistribution (재분배를 고려한 병렬형 재고시스템)

  • Gwon, Hui-Cheol;Kim, Man-Sik
    • Journal of Korean Society for Quality Management
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    • v.17 no.2
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    • pp.149-157
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    • 1989
  • A one-upper warehouse n-lower retailer inventory model is discussed. The probability distribution of demand for a given perod is independent. The inventory holding cost is proportional to the number of unsold units and the cost of shortages is proportional to the number of shortages. In the event of a shortage, units are redistributed with a cost proportional to the number of units from the retailers which are a surplus at the end of the period. The optimum stock levels are obtained and the effects of redistribution are analized.

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A Study on the Operation of Physical Distribution System with the Allocation of Safety Stock (안전재고입지를 고려한 물적 분배시스템 운영에 관한 연구)

  • 김병찬;김형준
    • Journal of the Korea Safety Management & Science
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    • v.3 no.3
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    • pp.77-86
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    • 2001
  • An operational strategy for inventory control on finished goods in the distribution system has been given attention to many enterprises and many studies regarding this field have been done and is also on-going currently. Many of these studies represented a large scale distribution network with a unified formulation by using defined symbols. These methods have provided the systematic approach of the distribution network but they are impossible to applying the reality system due to not considering the service rate of demand and treating the shortage of inventory. In order to overcome these unrealistic problems, the novel safety stock policy of responding to customers' inventory distribution network is suggested. this paper explores the transportation between Central Distribution Center(CDC) and Regional Distribution Center(RDC). Especially, the relation of transportation cost between CDC and RDC and cost of inventory control according to safety inventory with service level are emphasized. We could obtain the good results of this study by determining the optimal safety stock considering the various variables and constraints.

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A Study on the Operation of Distribution System for the Rationalization of Safety Stock under the Price Discount (가격할인하 안전재고 합리화를 위한 분배시스템 운영에 관한 연구)

  • Kim, Byeong-Chan;Kim, Hong-Ki
    • Journal of Korean Society of Industrial and Systems Engineering
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    • v.32 no.4
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    • pp.45-52
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    • 2009
  • The objective of this was to improve a transportation cost relation between Central Distribution Centers(CDCs) and Regional Distribution Centers(RDCs), to control inventory cost concerning safety stock for each service level, by reviewing distribution steps connecting CDCs and RDCs under the price discount. It was also to examine and compare operating costs for the following two alternative suggestions for setting the service standard as a counter measure for a stock-out of the distribution network system management. First, provision by dispersing the safety stock to the CDCs and RDCs; and second, exclusive provision of the safety stock only to the RDCs. The cost comparison analysis was made for each category of purchase costs, regular transportation costs, express transportation costs, and inventory holding costs.

Optimal Restocking Policy of an Inventory with Constant Demand

  • Ki, Jeong Jin;Lim, Kyung Eun;Lee, EuiYong
    • Communications for Statistical Applications and Methods
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    • v.11 no.3
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    • pp.631-641
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    • 2004
  • In this paper, a model for an inventory whose stock decreases with time is considered. When a deliveryman arrives, if the level of the inventory exceeds a threshold $\alpha$, no stock is delivered, otherwise a delivery is made. It is assumed that the size of a delivery is a random variable Y which is exponentially distributed. After assigning various costs to the model, we calculate the long-run average cost and show that there exist unique value of arrival rate of deliveryman $\alpha$, unique value of threshold $\alpha$ and unique value of average delivery m which minimize the long-run average cost.

On the Optimality of (s, S) Inventory Policy with Loss Cost (손실비용을 고려한 (s, S) 재고정책)

  • 최진영
    • Journal of Korean Society of Industrial and Systems Engineering
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    • v.18 no.34
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    • pp.61-67
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    • 1995
  • Through the model presented in this paper, we study on the depletion of stock taking place due to random loss of items as well as random demand, under the assumption that the distributions of demand are independent of those of loss, and both of them are identical, and that life time distribution of each item is negative exponential. The steady state probability distribution of the stock level assuming instantaneous delivery of order under (s, S) inventory policy. Also we have derived total expected cost expression with loss cost. The results of sensitive analysis show that the effect of loss rate is substantial on the total cost and optimal value of inventory level.

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