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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Effect of coordinated replenishment policies on quality
TL;DR: A mathematical model of a simplified supply chain in which conformance quality is one of the supplier's decision variables and both the supplier and its customer are trying to minimize expected annual cost indicates that coordination leads to a decline in total cost but that coordination does not necessarily lead to an improvement in quality.
Journal ArticleDOI
Towards a more economic production and just-in-time delivery system
TL;DR: In this paper, a batch production supplier participates in just-in-time (JIT) delivery of its products to a JIT buyer firm, and under certain conditions a small adjustment of previously agreed product selling price can result in a more economic production and JIT delivery system with reduced delivery quantity and hence increased delivery frequency.
Journal ArticleDOI
An integrated imperfect production system with advertisement dependent demand using branch and bound technique
TL;DR: From numerical studies, it is revealed that in case of incorporation of the advertisement, the retailer’s average profit, the manufacturer's average profit and the average integrated profit are higher than that in the case without advertisement.
Journal ArticleDOI
Mathematical modeling of a multi-product EMQ model with an enhanced end items issuing policy and failures in rework
TL;DR: This study uses mathematical modeling to examine a multi-product economic manufacturing quantity (EMQ) model with an enhanced end items issuing policy and rework failures to obtain a closed-form optimal production cycle time.
Journal ArticleDOI
Production lot sizing with work-in-process considerations in response to periodic demand
TL;DR: In this article, the authors develop two separate models for simultaneous determination of a product's manufacturing batch size and the order quantities of the input items that are used in the production process, in response to periodic, fixed purchase orders from a single customer.
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.