Journal ArticleDOI
A joint economic-lot-size model for purchaser and vendor
TLDR
In this article, a joint economic-lot-size model for a special case where a vendor produces to order for a purchaser on a lot-for-lot basis under deterministic conditions is developed.Abstract:
In a typical purchasing situation, the issues of price, lot sizing, etc, usually are settled through negotiations between the purchaser and the vendor Depending on the existing balance of power, the end result of such a bargaining process may be a near-optimal or optimal ordering policy for one of the parties (placing the other in a position of significant disadvantage) or, sometimes, inoptimal policies for both parties This paper develops a joint economic-lot-size model for a special case where a vendor produces to order for a purchaser on a lot-for-lot basis under deterministic conditions The focus of this model is the joint total relevant cost It is shown that a jointly optimal ordering policy, together with an appropriate price adjustment, can be beneficial economically for both parties or, at the least, does not place either at a disadvantageread more
Citations
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Journal ArticleDOI
Production allocation and shipment policies in a multiple-manufacturer-single-retailer supply chain
TL;DR: An efficient heuristic algorithm is developed to obtain the near-optimal solution to the purchasing cycle length, the shipment frequencies, and the production allocation ratios for multiple manufacturers.
Journal ArticleDOI
Revisiting foundations in lot sizing - connections between Harris, Crowther, Monahan, and Clark
TL;DR: In this paper, Boyaci and Gallego show that the underlying principles used in the four key articles that have led to a division in modelling approaches are in fact all in line with NPV, and argue that therefore there should not be these discrepancies that currently persist in the literature.
Journal ArticleDOI
Optimum pricing strategy for complementary products with reservation price in a supply chain model
Mitali Sarkar,Young Hae Lee +1 more
TL;DR: In this paper, a two-echelon supply chain model with two manufacturers and one common retailer is described, where two types of complementary products are produced by two manufacturers, and the common retailer buys products separately using a reservation price and bundles them for sale.
Journal ArticleDOI
A stochastic periodic review inventory model for vendor–buyer system with setup cost reduction and service–level constraint
TL;DR: A joint economic lot-sizing problem under stochastic demand for a vendor–buyer system by synchronizing ordering and production cycles is presented and an iterative procedure to find the optimal values of decision variables is suggested.
Journal ArticleDOI
Two-echelon supply chain inventory model with controllable lead time
M. Vijayashree,R. Uthayakumar +1 more
TL;DR: An integrated a single vendor and a single buyer inventory model is presented in order to minimize the sum of the ordering cost/setup cost, holding cost and crashing cost by simultaneously optimizing the optimal order quantity, lead time and number of deliveries.
References
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Book
Decision Systems for Inventory Management and Production Planning
TL;DR: In this article, an in-depth discussion of the major decisions in production planning, scheduling, and inventory management faced by organizations, both private and public, is presented, as well as the latest systems used to make decisions, including Just-in-Time Manufacturing, KANBAN, Distribution Requirements Planning and PUSH Control.
Journal ArticleDOI
Eoq formula: is it valid under inflationary conditions?
TL;DR: In this paper, it was shown that changes in the inflation rate should not affect the cost of capital that is utilized in the economic order quantity (EOQ) formula for determining order quantities.
Journal ArticleDOI
The Classical Economic Order Quantity Formula
TL;DR: In this paper, a stochastic version of the classical economic lot size model is developed, which yields the traditional square root formula where the constant demand term is replaced by mean demand.