Abstract. We consider the problem of packing rectangles into bins that are unit squares, where the goal is to minimize the number of bins used. All rectangles have to be packed non-overlapping and orthogonal, i.e., axis-parallel. We present an algorithm with an absolute worst-case ratio of 2 for the case where the rectangles can be rotated by 90 degrees. This is optimal provided P 6 = NP. For the case where rotation is not allowed, we prove an approximation ratio of 3 for the algorithm Hybrid First Fit which was introduced by Chung, Gary & Johnson [1982] and whose running time is slightly better than the running time of Zhang’s previously known 3-approximation algorithm [2005]
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
Given a set of rectangular items, all of them associated with a profit, and a single bigger rectangu...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We consider the problem of packing rectangles into bins that are unit squares, where the goal is to ...
We consider the problem of packing rectangles into bins that are unit squares, where the goal is to ...
We consider the problem of packing rectangles into bins that are unit squares, where the goal is to...
We consider the problem of packing rectangles into bins that are unit squares, where the goal is to ...
We consider the problem of packing rectangles into bins that are unit squares, where the goal is to ...
We consider the two-dimensional bin packing and strip packing problem, where a list of rectangles ha...
We consider the two-dimensional bin packing and strip packing problem, where a list of rectangles ha...
We consider the two-dimensional bin packing and strip packing problem, where a list of rectangles h...
We consider the problem of packing squares into bins which are unit squares, where the goal is to mi...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
Given a set of rectangular three-dimensional items, all of them associated with a profit, and a sing...
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...
Given a set of rectangular items, all of them associated with a profit, and a single bigger rectangu...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
We consider the problem of packing rectangles into bins that are unit squares, where the goal is to ...
We consider the problem of packing rectangles into bins that are unit squares, where the goal is to ...
We consider the problem of packing rectangles into bins that are unit squares, where the goal is to...
We consider the problem of packing rectangles into bins that are unit squares, where the goal is to ...
We consider the problem of packing rectangles into bins that are unit squares, where the goal is to ...
We consider the two-dimensional bin packing and strip packing problem, where a list of rectangles ha...
We consider the two-dimensional bin packing and strip packing problem, where a list of rectangles ha...
We consider the two-dimensional bin packing and strip packing problem, where a list of rectangles h...
We consider the problem of packing squares into bins which are unit squares, where the goal is to mi...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...
Given a set of rectangular three-dimensional items, all of them associated with a profit, and a sing...
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...
Given a set of rectangular items, all of them associated with a profit, and a single bigger rectangu...
We study the two-dimensional bin packing problem with and without rotations. Here we are given a set...