Journal ArticleDOI
Capacitated lot sizing with setup times
TLDR
In this paper, a Lagrangian relaxation of the capacity constraints of CLSP allows it to be decomposed into a set of uncapacitated single product lot sizing problems, which are solved by dynamic programming.Abstract:
This research focuses on the effect of setup time on lot sizing. The setting is the Capacitated Lot Sizing Problem (the single-machine lot sizing problem) with nonstationary costs, demands, and setup times. A Lagrangian relaxation of the capacity constraints of CLSP allows it to be decomposed into a set of uncapacitated single product lot sizing problems. The Lagrangian dual costs are updated by subgradient optimization, and the single-item problems are solved by dynamic programming. A heuristic smoothing procedure constructs feasible solutions (production plans) which do not require overtime. The algorithm solves problems with setup time or setup cost. Problems with extremely tightly binding capacity constraints were much more difficult to solve than anticipated. Solutions without overtime could not always be found for them. The most significant results are that (1) the tightness of the capacity constraint is a good indicator of problem difficulty for problems with setup time; and (2) the algorithm solve...read more
Citations
More filters
Journal ArticleDOI
A stochastic model of multi-level/multi-stage capacity-constrained production–inventory systems
TL;DR: In this paper, a great deal of research has been done on capacity-constrained production-inventory systems, most of which concerns deterministic demand situations and single-product systems.
Journal ArticleDOI
Multiperiod production planning carrying over set-up time
TL;DR: The shortening of production planning periods to days, shifts or even less has increased production capacity time and continue troubling production planning, especially on bottlenecks as discussed by the authors, and this shortening has increased the cost of set-ups.
Posted Content
Solving Multi-Item Capacitated Lot-Sizing Problems with Setup Times by Branch-and-Cut
TL;DR: In this article, the authors used results concerning the polyhedral structure of simplified models obtained from a single time period of MCL to obtain strong valid inequalities for MCL and implemented these inequalities successfully in a branch-and-cut algorithm.
Journal ArticleDOI
Lower Bounds in Lot-Sizing Models: A Polyhedral Study
TL;DR: Families of strong valid inequalities are derived and shown to be sufficient to describe completely the convex hulls of the sets of feasible solutions of mixed integer models whose feasible set includes an additive constraint Σxj â¤â¬¥, =D, and constraints Lyj, where xj are continuous variables, yj are integer or binary variables, and K is a large constant.
Journal ArticleDOI
The profit maximizing capacitated lot-size (PCLSP) problem
TL;DR: This paper extends the results for capacitated lot-sizing research to include pricing, and by including price, can modify demand as well as production schedule.
References
More filters
Book
Computers and Intractability: A Guide to the Theory of NP-Completeness
TL;DR: The second edition of a quarterly column as discussed by the authors provides a continuing update to the list of problems (NP-complete and harder) presented by M. R. Garey and myself in our book "Computers and Intractability: A Guide to the Theory of NP-Completeness,” W. H. Freeman & Co., San Francisco, 1979.
Journal ArticleDOI
Decomposition Principle for Linear Programs
George B. Dantzig,Philip Wolfe +1 more
TL;DR: A technique is presented for the decomposition of a linear program that permits the problem to be solved by alternate solutions of linear sub-programs representing its several parts and a coordinating program that is obtained from the parts by linear transformations.
Journal ArticleDOI
Dynamic Version of the Economic Lot Size Model
Harvey M. Wagner,T. M. Whitin +1 more
TL;DR: Disjoint planning horizons are shown to be possible which eliminate the necessity of having data for the full N periods and desire a minimum total cost inventory management scheme which satisfies known demand in every period.
Journal ArticleDOI
Validation of subgradient optimization
TL;DR: It is concluded that the “relaxation” procedure for approximately solving a large linear programming problem related to the traveling-salesman problem shows promise for large-scale linear programming.
Related Papers (5)
Solving multi-item capacitated lot-sizing problems using variable redefinition
Gary D. Eppen,R. Kipp Martin +1 more