Software Engineering

Open Access Open Access  Restricted Access Subscription Access
Open Access Open Access Open Access  Restricted Access Restricted Access Subscription Access

Evaluation of Eoq Inventory under Both Non-linear Stock and Holding Cost, Trade Financial Parameter


Affiliations
1 Department of Mathematics, SPS College of Arts and Science, India
2 Department of Mathematics, SPS College of Arts and Science., India
     

   Subscribe/Renew Journal


Economic Order Quantity (EOQ) is the ideal order quantity a company should purchase to minimize inventory costs such as holding costs, shortage costs, and order costs. This production-scheduling model was developed in 1913 by Ford W. Harris and has been refined over time. The formula assumes that demand, ordering, and holding costs all remain constant. The goal of the EOQ formula is to identify the optimal number of product units to order. If achieved, a company can minimize its costs for buying, delivering, and storing units. The EOQ formula can be modified to determine different production levels or order intervals, and corporations with large supply chains and high variable costs use an algorithm in their computer software to determine EOQ. EOQ is an important cash flow tool. The formula can help a company control the amount of cash tied up in the inventory balance. For many companies, inventory is its largest asset other than its human resources, and these businesses must carry sufficient inventory to meet the needs of customers. If EOQ can help minimize the level of inventory, the cash savings can be used for some other business purpose or investment. The EOQ formula determines a company's inventory reorder point. When inventory falls to a certain level, the EOQ formula, if applied to business processes, triggers the need to place an order for more units. By determining a reorder point, the business avoids running out of inventory and can continue to fill customer orders. If the company runs out of inventory, there is a shortage cost, which is the revenue lost because the company has insufficient inventory to fill an order. An inventory shortage may also mean the company loses the customer or the client will order less in the future.

Keywords

EOQ Inventory Model, Economic Order Quantity Evaluation.
User
Subscription Login to verify subscription
Notifications
Font Size

  • (1) Goyal S.K., 1976. An integrated inventory model for a single supplier-single customer problem. International Journal of Production Research 15, 107-111.

  • (2) Huang Y.F., 2003. Optimal retailer’s ordering policies in the EOQ model under trade credit financing. Journal of Operational Research Society 54, 1011-1015.

  • (3) Jaggi C.K., Goyal S.K., Geol S.K., 2008. Retailer’s optimal replenishment decisions with credit linked demand under Permissible delay in payments. European Journal of Operational Research 190, 130-135.

  • (4) Teng J.T. Chang C.T., 2009. Optimal manufacturer’s replenishment policies in the EPQ model under two levels of trade credit policy. European Journal of Operational Research 195, 358-363.

  • (5) Tsao Y.C., Sheen G.J., 2008. Dynamic Pricing, promotion and replenishment policies for a deteriorating item under permissible delay in payments. Computers and Operations Research 35, 3562-3560.

  • (6) Alfares,H.K., & Ghaithzn,A.M(2016).Inventory and pricing model with price-dependent demand, time-varying holdings and cost, and quantity discouns.Computers and industrial Engineering,94,170-177.

  • (7) Chen,S.C., Cardeanas-Barron,L.E.,&Teng,J.T.(2014).Retailer’s economic order quantity .International Journal of Production Economics,155,284-291.

  • (8) Chang, C.T., Ouyang, L.Y., & Tend, J.T. (2003). An EOQ model for deteriorating items under supplier credits linked to ordering quantity. Applied Mathematical Modeling. 27, 983-996.

  • (9) Jaggi Chandra, K., Goyal, S.K., & Goel, S.K. (2008). Retailer’s optimal replenishment decisions with credit-linked demand under permissible delay in payments. European Journal of Operational Research 190, 130-155.

  • (10) Campos, L., Verde gay, J.L. (1989). Linear Programming problems and ranking of fuzzy numbers. Fuzzy sets and Systems. 32(1-11).

  • (11) Chen, S.H., Hsieh, C.H. (1998). Graded Mean Integration Representation of Generalized Fuzzy Numbers, In: The sixth conference on Fuzzy Theory and its Applications (CD-ROM), filename: 031. Wdl, Chinese Fuzzy Systems Association, Taiwan, 1-6.

  • (12) Kaufmann, A., Gupta, M.M. (1991). Introduction to fuzzy arithmetic theory and applications, Van No strand Reinhold.

  • (13) Lee, H.M., Yao, J.S. (1998). Economic production quantity for fuzzy demand quantity and fuzzy production quantity. European Journal of Operational Research. 109, 203-211.


Abstract Views: 80

PDF Views: 0




  • Evaluation of Eoq Inventory under Both Non-linear Stock and Holding Cost, Trade Financial Parameter

Abstract Views: 80  |  PDF Views: 0

Authors

D. Rani
Department of Mathematics, SPS College of Arts and Science, India
F. Meharuniza
Department of Mathematics, SPS College of Arts and Science., India

Abstract


Economic Order Quantity (EOQ) is the ideal order quantity a company should purchase to minimize inventory costs such as holding costs, shortage costs, and order costs. This production-scheduling model was developed in 1913 by Ford W. Harris and has been refined over time. The formula assumes that demand, ordering, and holding costs all remain constant. The goal of the EOQ formula is to identify the optimal number of product units to order. If achieved, a company can minimize its costs for buying, delivering, and storing units. The EOQ formula can be modified to determine different production levels or order intervals, and corporations with large supply chains and high variable costs use an algorithm in their computer software to determine EOQ. EOQ is an important cash flow tool. The formula can help a company control the amount of cash tied up in the inventory balance. For many companies, inventory is its largest asset other than its human resources, and these businesses must carry sufficient inventory to meet the needs of customers. If EOQ can help minimize the level of inventory, the cash savings can be used for some other business purpose or investment. The EOQ formula determines a company's inventory reorder point. When inventory falls to a certain level, the EOQ formula, if applied to business processes, triggers the need to place an order for more units. By determining a reorder point, the business avoids running out of inventory and can continue to fill customer orders. If the company runs out of inventory, there is a shortage cost, which is the revenue lost because the company has insufficient inventory to fill an order. An inventory shortage may also mean the company loses the customer or the client will order less in the future.

Keywords


EOQ Inventory Model, Economic Order Quantity Evaluation.

References