Fast Neighborhood Search Heuristics for the Colored Bin Packing Problem
The Colored Bin Packing Problem (CBPP) is a generalization of the Bin Packing Problem (BPP). The CBPP consists of packing a set of items, each with a weight and a color, in bins of limited capacity, minimizing the number of used bins and satisfying the constraint that two items of the same color can...
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| creator | da Silva, Renan F. F Borges, Yulle G. F Schouery, Rafael C. S |
| description | The Colored Bin Packing Problem (CBPP) is a generalization of the Bin Packing
Problem (BPP). The CBPP consists of packing a set of items, each with a weight
and a color, in bins of limited capacity, minimizing the number of used bins
and satisfying the constraint that two items of the same color cannot be packed
side by side in the same bin. In this article, we proposed an adaptation of BPP
heuristics and new heuristics for the CBPP. Moreover, we propose a set of fast
neighborhood search algorithms for CBPP. These neighborhoods are applied in a
meta-heuristic approach based on the Variable Neighborhood Search (VNS) and a
matheuristic approach that combines linear programming with the meta-heuristics
VNS and Greedy Randomized Adaptive Search (GRASP). The results indicate that
our matheuristic is superior to VNS and that both approaches can find
near-optimal solutions for a large number of instances, even for those with
many items. |
| doi_str_mv | 10.48550/arxiv.2310.04471 |
| format | Article |
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Problem (BPP). The CBPP consists of packing a set of items, each with a weight
and a color, in bins of limited capacity, minimizing the number of used bins
and satisfying the constraint that two items of the same color cannot be packed
side by side in the same bin. In this article, we proposed an adaptation of BPP
heuristics and new heuristics for the CBPP. Moreover, we propose a set of fast
neighborhood search algorithms for CBPP. These neighborhoods are applied in a
meta-heuristic approach based on the Variable Neighborhood Search (VNS) and a
matheuristic approach that combines linear programming with the meta-heuristics
VNS and Greedy Randomized Adaptive Search (GRASP). The results indicate that
our matheuristic is superior to VNS and that both approaches can find
near-optimal solutions for a large number of instances, even for those with
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Problem (BPP). The CBPP consists of packing a set of items, each with a weight
and a color, in bins of limited capacity, minimizing the number of used bins
and satisfying the constraint that two items of the same color cannot be packed
side by side in the same bin. In this article, we proposed an adaptation of BPP
heuristics and new heuristics for the CBPP. Moreover, we propose a set of fast
neighborhood search algorithms for CBPP. These neighborhoods are applied in a
meta-heuristic approach based on the Variable Neighborhood Search (VNS) and a
matheuristic approach that combines linear programming with the meta-heuristics
VNS and Greedy Randomized Adaptive Search (GRASP). The results indicate that
our matheuristic is superior to VNS and that both approaches can find
near-optimal solutions for a large number of instances, even for those with
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Problem (BPP). The CBPP consists of packing a set of items, each with a weight
and a color, in bins of limited capacity, minimizing the number of used bins
and satisfying the constraint that two items of the same color cannot be packed
side by side in the same bin. In this article, we proposed an adaptation of BPP
heuristics and new heuristics for the CBPP. Moreover, we propose a set of fast
neighborhood search algorithms for CBPP. These neighborhoods are applied in a
meta-heuristic approach based on the Variable Neighborhood Search (VNS) and a
matheuristic approach that combines linear programming with the meta-heuristics
VNS and Greedy Randomized Adaptive Search (GRASP). The results indicate that
our matheuristic is superior to VNS and that both approaches can find
near-optimal solutions for a large number of instances, even for those with
many items.</abstract><doi>10.48550/arxiv.2310.04471</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Computer Science - Artificial Intelligence Mathematics - Optimization and Control |
| title | Fast Neighborhood Search Heuristics for the Colored Bin Packing Problem |
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