In this paper, a dynamic programming-based recursive method is proposed for solving an unconstrained 2D rectangular cutting problem. The algorithm is an incomplete method, in which some intricate cutting patterns may not be obtained. The worst case performance of the algorithm is evaluated and some theoretical analyses for the algorithm are performed. Compared to traditional dynamic programming, this algorithm gives a high percentage of optimal solutions (94.84%, 86.67% and 77.83% for small, medium and large sized unweighted instances, 99.67%, 99.50% and 97.00% for small, medium and large sized weighted instances) but features a far lower computational complexity. Computational results are also presented for some known benchmarks
New constructive algorithms for the two-dimensional guillotine-cutting problem are presented. The al...
We propose a framework to model general guillotine restrictions in two-dimensional cutting problems ...
We propose a framework to model general guillotine restrictions in two-dimensional cutting problems ...
In this paper, a dynamic programming-based recursive method is proposed for solving an unconstrained...
In this paper, a heuristic dynamic-programming recursion is proposed for solving unconstrained 2D kn...
In the unconstrained two-dimensional cutting problems (U2DCP) small rectangular objects have to be e...
In this paper we tackle the unconstrained non-staged guillotine two-dimensional cutting problem (U2D...
We tackle the unconstrained guillotine two-dimensional cutting prob- lem (U2DCP) by a new improved v...
In this study, a dynamic programming approach to deal with the unconstrained two-dimensional non-gui...
The constrained two-dimensional cutting problem involves maximising the sum of the profits obtained ...
Abstract: This paper presents a heuristic for the constrained two-dimensional cutting problem in whi...
Neste artigo estudamos um caso particular dos problemas de corte, denominado problema bidimensional ...
In this paper we tackle the unconstrained non-staged guillotine two-dimensional cutting stock proble...
In recent years, GPU computing has become an increasingly important tool to develop efficient applic...
New constructive algorithms for the two-dimensional guillotine-cutting problem are presented. The al...
We propose a framework to model general guillotine restrictions in two-dimensional cutting problems ...
We propose a framework to model general guillotine restrictions in two-dimensional cutting problems ...
In this paper, a dynamic programming-based recursive method is proposed for solving an unconstrained...
In this paper, a heuristic dynamic-programming recursion is proposed for solving unconstrained 2D kn...
In the unconstrained two-dimensional cutting problems (U2DCP) small rectangular objects have to be e...
In this paper we tackle the unconstrained non-staged guillotine two-dimensional cutting problem (U2D...
We tackle the unconstrained guillotine two-dimensional cutting prob- lem (U2DCP) by a new improved v...
In this study, a dynamic programming approach to deal with the unconstrained two-dimensional non-gui...
The constrained two-dimensional cutting problem involves maximising the sum of the profits obtained ...
Abstract: This paper presents a heuristic for the constrained two-dimensional cutting problem in whi...
Neste artigo estudamos um caso particular dos problemas de corte, denominado problema bidimensional ...
In this paper we tackle the unconstrained non-staged guillotine two-dimensional cutting stock proble...
In recent years, GPU computing has become an increasingly important tool to develop efficient applic...
New constructive algorithms for the two-dimensional guillotine-cutting problem are presented. The al...
We propose a framework to model general guillotine restrictions in two-dimensional cutting problems ...
We propose a framework to model general guillotine restrictions in two-dimensional cutting problems ...