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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Book ChapterDOI
Chapter 3 Mathematical models of group choice and negotiations
Kim P. Corfman,Sunil Gupta +1 more
TL;DR: This chapter illustrates the importance and prevalence of group choice in marketing with examples designed to illustrate the hazards of assuming that most choices are independent.
Journal ArticleDOI
Optimal contract design in the joint economic lot size problem with multi-dimensional asymmetric information
Grigory Pishchulov,Knut Richter +1 more
TL;DR: A simple optimality condition stating that a weak Pareto efficiency of the buyer’s possible cost structures implies optimality of any stationary point is derived and simplifies the analytical solution approach and ensures a successful solution of the problem by means of conventional numerical techniques, e.g. with a general-purpose solver.
Journal ArticleDOI
A fuzzy periodic review integrated inventory model involving stochastic demand, imperfect production process and inspection errors
TL;DR: The proposed model can be applied by managers or practitiones for managing inventories across the supply chain involving a vendor and a buyer by allowing the inclusion of fuzzy annual demand, adjustable production rate and imperfect production and inspection processes.
Journal ArticleDOI
Quantifying the value of buyer–vendor coordination: Analytical and numerical results under different replenishment cost structures
Ayşegül Toptal,Sila Çetinkaya +1 more
TL;DR: This paper revisits the classical buyer–vendor coordination problem and examines the effect of generalized replenishment costs on the system-wide cost improvement rates that are due to coordination, and presents detailed numerical results quantifying the value of coordination.
Journal ArticleDOI
A periodic review integrated inventory model for buyer’s unidentified protection interval demand distribution
TL;DR: This paper aims to study the influence of inflationary condition on a specific periodic review integrated vendor–buyer inventory system in the presence of vendor’s imperfect manufacturing process using a proposed model.
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.