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Main Authors: Baldacci, Roberto, Ciccarelli, Fabio, Coniglio, Stefano, Dose, Valerio, Furini, Fabio
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.10075
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author Baldacci, Roberto
Ciccarelli, Fabio
Coniglio, Stefano
Dose, Valerio
Furini, Fabio
author_facet Baldacci, Roberto
Ciccarelli, Fabio
Coniglio, Stefano
Dose, Valerio
Furini, Fabio
contents We introduce and study a novel generalization of the classical Bin Packing Problem (BPP), called the Bin Packing Problem with Setups (BPPS). In this problem, which has many practical applications in production planning and logistics, the items are partitioned into classes and, whenever an item from a given class is packed into a bin, a setup weight and cost are incurred. We present a natural Integer Linear Programming (ILP) formulation for the BPPS and analyze the structural properties of its Linear Programming relaxation. We show that the lower bound provided by the relaxation can be arbitrarily poor in the worst case. We introduce the Minimum Classes Inequalities (MCIs), which strengthen the relaxation and restore a worst-case performance guarantee of 1/2, matching that of the classical BPP. In addition, we derive the Minimum Bins Inequality (MBI) to further reinforce the relaxation, together with an upper bound on the number of bins in any optimal BPPS solution, which leads to a significant reduction in the number of variables and constraints of the ILP formulation. Finally, we establish a comprehensive benchmark of 480 BPPS instances and conduct extensive computational experiments. The results show that the integration of MCIs, the MBI, and the upper bound on the number of bins substantially improves the performance of the ILP formulation in terms of solution time and number of instances solved to optimality.
format Preprint
id arxiv_https___arxiv_org_abs_2509_10075
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Bin Packing Problem with Setups: Formulation, Structural Properties and Computational Insights
Baldacci, Roberto
Ciccarelli, Fabio
Coniglio, Stefano
Dose, Valerio
Furini, Fabio
Combinatorics
We introduce and study a novel generalization of the classical Bin Packing Problem (BPP), called the Bin Packing Problem with Setups (BPPS). In this problem, which has many practical applications in production planning and logistics, the items are partitioned into classes and, whenever an item from a given class is packed into a bin, a setup weight and cost are incurred. We present a natural Integer Linear Programming (ILP) formulation for the BPPS and analyze the structural properties of its Linear Programming relaxation. We show that the lower bound provided by the relaxation can be arbitrarily poor in the worst case. We introduce the Minimum Classes Inequalities (MCIs), which strengthen the relaxation and restore a worst-case performance guarantee of 1/2, matching that of the classical BPP. In addition, we derive the Minimum Bins Inequality (MBI) to further reinforce the relaxation, together with an upper bound on the number of bins in any optimal BPPS solution, which leads to a significant reduction in the number of variables and constraints of the ILP formulation. Finally, we establish a comprehensive benchmark of 480 BPPS instances and conduct extensive computational experiments. The results show that the integration of MCIs, the MBI, and the upper bound on the number of bins substantially improves the performance of the ILP formulation in terms of solution time and number of instances solved to optimality.
title The Bin Packing Problem with Setups: Formulation, Structural Properties and Computational Insights
topic Combinatorics
url https://arxiv.org/abs/2509.10075