Construction heuristics for two-dimensional irregular shape bin packing with guillotine constraints
Construction heuristics for two-dimensional irregular shape bin packing with guillotine constraints
The paper examines a new problem in the irregular packing literature that has many applications in industry: two-dimensional irregular (convex) bin packing with guillotine constraints. Due to the cutting process of certain materials, cuts are restricted to extend from one edge of the stock-sheet to another, called guillotine cutting. This constraint is common place in glass cutting and is an important constraint in two-dimensional cutting and packing problems. In the literature, various exact and approximate algorithms exist for finding the two dimensional cutting patterns that satisfy the guillotine cutting constraint. However, to the best of our knowledge, all of the algorithms are designed for solving rectangular cutting where cuts are orthogonal with the edges of the stock-sheet. In order to satisfy the guillotine cutting constraint using these approaches, when the pieces are non-rectangular, practitioners implement a two stage approach. First, pieces are enclosed within rectangle shapes and then the rectangles are packed. Clearly, imposing this condition is likely to lead to additional waste. This paper aims to generate guillotine-cutting layouts of irregular shapes using a number of strategies. The investigation compares three two-stage approaches: one approximates pieces by rectangles, the other two approximate pairs of pieces by rectangles using a cluster heuristic or phi-functions for optimal clustering. All three approaches use a competitive algorithm for rectangle bin packing with guillotine constraints. Further, we design and implement a one-stage approach using an adaptive forest search algorithm. Experimental results show the one-stage strategy produces good solutions in less time over the two-stage approach.
495-504
Bennell, Julia A.
38d924bc-c870-4641-9448-1ac8dd663a30
Han, Wei
83b53c96-8755-431b-a304-de76d42834a7
Zhao, Xiaozhou
3e4d4056-e0d5-478e-9057-19b41fbd6e7b
Song, Xiang
28fc03d0-9077-49f5-bc94-a4f92fa76565
Bennell, Julia A.
38d924bc-c870-4641-9448-1ac8dd663a30
Han, Wei
83b53c96-8755-431b-a304-de76d42834a7
Zhao, Xiaozhou
3e4d4056-e0d5-478e-9057-19b41fbd6e7b
Song, Xiang
28fc03d0-9077-49f5-bc94-a4f92fa76565
Bennell, Julia A., Han, Wei, Zhao, Xiaozhou and Song, Xiang
(2013)
Construction heuristics for two-dimensional irregular shape bin packing with guillotine constraints.
European Journal of Operational Research, 230 (3), .
(doi:10.1016/j.ejor.2013.04.048).
Abstract
The paper examines a new problem in the irregular packing literature that has many applications in industry: two-dimensional irregular (convex) bin packing with guillotine constraints. Due to the cutting process of certain materials, cuts are restricted to extend from one edge of the stock-sheet to another, called guillotine cutting. This constraint is common place in glass cutting and is an important constraint in two-dimensional cutting and packing problems. In the literature, various exact and approximate algorithms exist for finding the two dimensional cutting patterns that satisfy the guillotine cutting constraint. However, to the best of our knowledge, all of the algorithms are designed for solving rectangular cutting where cuts are orthogonal with the edges of the stock-sheet. In order to satisfy the guillotine cutting constraint using these approaches, when the pieces are non-rectangular, practitioners implement a two stage approach. First, pieces are enclosed within rectangle shapes and then the rectangles are packed. Clearly, imposing this condition is likely to lead to additional waste. This paper aims to generate guillotine-cutting layouts of irregular shapes using a number of strategies. The investigation compares three two-stage approaches: one approximates pieces by rectangles, the other two approximate pairs of pieces by rectangles using a cluster heuristic or phi-functions for optimal clustering. All three approaches use a competitive algorithm for rectangle bin packing with guillotine constraints. Further, we design and implement a one-stage approach using an adaptive forest search algorithm. Experimental results show the one-stage strategy produces good solutions in less time over the two-stage approach.
Text
Irreg_guillotine_EJOR_revision2.pdf
- Accepted Manuscript
More information
e-pub ahead of print date: 30 April 2013
Organisations:
Centre of Excellence for International Banking, Finance & Accounting
Identifiers
Local EPrints ID: 352253
URI: http://eprints.soton.ac.uk/id/eprint/352253
ISSN: 0377-2217
PURE UUID: c5bda47f-b814-4caf-95df-9689470d1233
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Date deposited: 08 May 2013 11:49
Last modified: 14 Mar 2024 13:49
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Contributors
Author:
Julia A. Bennell
Author:
Wei Han
Author:
Xiaozhou Zhao
Author:
Xiang Song
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