Add to ORKGWe present approximation algorithms for the three-dimensional strip packing problem, and the three-dimensional bin packing problem. We consider orthogonal packings where 90 degrees rotations are allowed. The algorithms we show for these problems have asymptotic performance bounds 2.64, and 4.89, respectively. These algorithms are for the more general case in which the bounded dimensions of the bin given in the input are not necessarily equal (that is, we consider bins for which the length. the width and the height are not necessarily equal). Moreover, we show that these problems-in the general version-are as hard to approximate as the corresponding oriented version. (C) 2009 Elsevier Ltd. All rights reserved
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study strip packing, which is one of the most classical two-dimensional packing problems: given a...
We study strip packing, which is one of the most classical two-dimensional packing problems: given a...
We present approximation algorithms for the three-dimensional strip packing problem, and the three-d...
We present approximation algorithms for the three-dimensional strip packing problem, and the three-d...
We present approximation algorithms for the two- and three-dimensional bin packing problems and the ...
We present an asymptotic fully polynomial time approximation scheme for two-dimensional strip packin...
In this thesis we consider the two-dimensional bin packing problem and the strip packing problem, wh...
We study non-overlapping axis-parallel packings of 3D boxes with profits into a dedicated bigger box...
We study non-overlapping axis-parallel packings of 3D boxes with profits into a dedicated bigger bo...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study strip packing, which is one of the most classical two-dimensional packing problems: given a...
We study strip packing, which is one of the most classical two-dimensional packing problems: given a...
We present approximation algorithms for the three-dimensional strip packing problem, and the three-d...
We present approximation algorithms for the three-dimensional strip packing problem, and the three-d...
We present approximation algorithms for the two- and three-dimensional bin packing problems and the ...
We present an asymptotic fully polynomial time approximation scheme for two-dimensional strip packin...
In this thesis we consider the two-dimensional bin packing problem and the strip packing problem, wh...
We study non-overlapping axis-parallel packings of 3D boxes with profits into a dedicated bigger box...
We study non-overlapping axis-parallel packings of 3D boxes with profits into a dedicated bigger bo...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We study strip packing, which is one of the most classical two-dimensional packing problems: given a...
We study strip packing, which is one of the most classical two-dimensional packing problems: given a...