We study pseudopolynomial formulations for the classical bin packing and cutting stock problems. We first propose an overview of dominance and equivalence relations among the main pattern-based and pseudopolynomial formulations from the literature. We then introduce reflect, a new formulation that uses just half of the bin capacity to model an instance and needs significantly fewer constraints and variables than the classical models. We propose upper- and lower-bounding techniques that make use of column generation and dual information to compensate reflect weaknesses when bin capacity is too high. We also present nontrivial adaptations of our techniques that solve two interesting problem variants, namely the variable-sized bin packing prob...
We present an asymptotic fully polynomial approximation scheme for strip-packing, or packing rectan...
The thesis considers the one-dimensional cutting stock problem, the bin-packing problem, and their r...
This thesis gives a comprehensive view of the scope of formulations andrelated solution approaches f...
We study pseudopolynomial formulations for the classical bin packing and cutting stock problems. We ...
We consider the bin packing problem with d different item sizes si and item multiplicities ai, where...
Cutting stock problems and bin packing problems are basically the same problems. They differ essenti...
Two-dimensional packing problems are a fundamental class of optimization problems and Strip Packing ...
We present novel exact and approximate methods for solving bin packing and related problems, which s...
The bin packing problem (and its variant, the cutting stock problem) is among the most intensively s...
We consider the three-stage two-dimensional bin packing problem (2BP) which occurs in real-world app...
International audienceWe consider the three-stage two-dimensional bin packing problem (2BP) which oc...
International audienceWe propose branch-cut-and-price algorithms for the classic bin packing problem...
We develop a polynomial-time algorithm to optimise a variant of the one-dimensional bin-packing prob...
We present a simple algorithm for the cutting stock problem with a constant number d of object sizes...
We study an extension of the classical Bin Packing Problem, where each item consumes the bin capacit...
We present an asymptotic fully polynomial approximation scheme for strip-packing, or packing rectan...
The thesis considers the one-dimensional cutting stock problem, the bin-packing problem, and their r...
This thesis gives a comprehensive view of the scope of formulations andrelated solution approaches f...
We study pseudopolynomial formulations for the classical bin packing and cutting stock problems. We ...
We consider the bin packing problem with d different item sizes si and item multiplicities ai, where...
Cutting stock problems and bin packing problems are basically the same problems. They differ essenti...
Two-dimensional packing problems are a fundamental class of optimization problems and Strip Packing ...
We present novel exact and approximate methods for solving bin packing and related problems, which s...
The bin packing problem (and its variant, the cutting stock problem) is among the most intensively s...
We consider the three-stage two-dimensional bin packing problem (2BP) which occurs in real-world app...
International audienceWe consider the three-stage two-dimensional bin packing problem (2BP) which oc...
International audienceWe propose branch-cut-and-price algorithms for the classic bin packing problem...
We develop a polynomial-time algorithm to optimise a variant of the one-dimensional bin-packing prob...
We present a simple algorithm for the cutting stock problem with a constant number d of object sizes...
We study an extension of the classical Bin Packing Problem, where each item consumes the bin capacit...
We present an asymptotic fully polynomial approximation scheme for strip-packing, or packing rectan...
The thesis considers the one-dimensional cutting stock problem, the bin-packing problem, and their r...
This thesis gives a comprehensive view of the scope of formulations andrelated solution approaches f...