Abstract
We use the Positions and Covering methodology to obtain exact solutions for the two-dimensional, non-guillotine restricted, strip packing problem. In this classical NP-hard problem, a given set of rectangular items has to be packed into a strip of fixed weight and infinite height. The objective consists in determining the minimum height of the strip. The Positions and Covering methodology is based on a two-stage procedure. First, it is generated, in a pseudo-polynomial way, a set of valid positions in which an item can be packed into the strip. Then, by using a set-covering formulation, the best configuration of items into the strip is selected. Based on the literature benchmark, experimental results validate the quality of the solutions and method’s effectiveness for small and medium-size instances. To the best of our knowledge, this is the first approach that generates optimal solutions for some literature instances for which the optimal solution was unknown before this study.
Highlights
The Two-Dimensional Strip Packing Problem (2SP) is composed of a given set of n rectangular items, each one with specific width wi and height hi, for i = 1, . . ., n, and a strip of width W and infinite height
We propose an adaptation of the Positions and Covering (P&C) methodology, used by [10] to obtain optimal solutions for the two-dimensional bin packing problem
Original instances for the strip packing. This instance set refers to the instances generated for the two-dimensional strip packing problem
Summary
The Two-Dimensional Strip Packing Problem (2SP) is composed of a given set of n rectangular items, each one with specific width wi and height hi, for i = 1, . . ., n, and a strip of width W and infinite height. The aim is to place all the items into the strip orthogonally; without overlapping, minimizing the overall strip’s height [1, 2]. We consider the case when the items have a fixed orientation, and the guillotine cut constraint is unnecessary. In this case, there is no wasting in the strip; that is, we have a perfect packing
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