We study the multi-item capacitated lot sizing problem with setup times. Based on two strong reformulations of the problem, we present a transformed reformulation and valid inequalities that speed up column generation and Lagrange relaxation. We demonstrate computationally how both ideas enhance the performance of our algorithm and show theoretically how they are related to dual space reduction techniques. We compare several solution methods and propose a new efficient hybrid scheme that combines column generation and Lagrange relaxation in a novel way. Computational experiments show that the proposed solution method for finding lower bounds is competitive with textbook approaches and state-of-the-art approaches found in the literature. Fin...
textabstractAlthough the textbook Dantzig-Wolfe decomposition reformulation for the capacitated lot-...
textabstractThe textbook Dantzig-Wolfe decomposition for the Capacitated Lot Sizing Problem (CLSP),a...
Purpose: We aim to examine the capacitated multi-item lot sizing problem which is a typical example ...
We introduce horizon decomposition in the context of Dantzig-Wolfe decomposition, and apply it to th...
In this article, we consider the multi-item capacitated lot sizing problem with setup times. Startin...
We address the multi-item, capacitated lot-sizing problem (CLSP) encountered in environments where d...
The issue in lot sizing problem is to plan production processes, so that mean the production quantit...
textabstractWe present new lower bounds for the Capacitated Lot Sizing Problem with Set Up Times. We...
We study the big-bucket capacitated lot sizing problem with setup times. We use the novel methodolog...
In this paper, we solve the capacitated multi item lot-sizing problem with non-customer specific pro...
Instances of the multi-item capacitated lot-sizing problem with setup times (MCL) often appear in pr...
We introduce horizon decomposition in the context of Dantzig-Wolfe decomposition, and apply it to th...
The multi-item Capacitated Lot-sizing problem with Setup Times (CLST) is an important problem from b...
The capacitated multi-item lot sizing problem consists of finding a production schedule that minimiz...
The capacitated multi-item lot sizing problem consists of finding a production shedule that minimize...
textabstractAlthough the textbook Dantzig-Wolfe decomposition reformulation for the capacitated lot-...
textabstractThe textbook Dantzig-Wolfe decomposition for the Capacitated Lot Sizing Problem (CLSP),a...
Purpose: We aim to examine the capacitated multi-item lot sizing problem which is a typical example ...
We introduce horizon decomposition in the context of Dantzig-Wolfe decomposition, and apply it to th...
In this article, we consider the multi-item capacitated lot sizing problem with setup times. Startin...
We address the multi-item, capacitated lot-sizing problem (CLSP) encountered in environments where d...
The issue in lot sizing problem is to plan production processes, so that mean the production quantit...
textabstractWe present new lower bounds for the Capacitated Lot Sizing Problem with Set Up Times. We...
We study the big-bucket capacitated lot sizing problem with setup times. We use the novel methodolog...
In this paper, we solve the capacitated multi item lot-sizing problem with non-customer specific pro...
Instances of the multi-item capacitated lot-sizing problem with setup times (MCL) often appear in pr...
We introduce horizon decomposition in the context of Dantzig-Wolfe decomposition, and apply it to th...
The multi-item Capacitated Lot-sizing problem with Setup Times (CLST) is an important problem from b...
The capacitated multi-item lot sizing problem consists of finding a production schedule that minimiz...
The capacitated multi-item lot sizing problem consists of finding a production shedule that minimize...
textabstractAlthough the textbook Dantzig-Wolfe decomposition reformulation for the capacitated lot-...
textabstractThe textbook Dantzig-Wolfe decomposition for the Capacitated Lot Sizing Problem (CLSP),a...
Purpose: We aim to examine the capacitated multi-item lot sizing problem which is a typical example ...