We prove the computational intractability of rotating and placing n square tiles into a 1 × n array such that adjacent tiles are compatible-either equal edge colors, as in edge-matching puzzles, or matching tab/pocket shapes, as in jigsaw puzzles. Beyond basic NP-hardness, we prove that it is NP-hard even to approximately maximize the number of placed tiles (allowing blanks), while satisfying the compatibility constraint between nonblank tiles, within a factor of 0.9999999702 (On the other hand, there is an easy 1/2 -approximation). This is the first (correct) proof of inapproximability for edge-matching and jigsaw puzzles. Along the way, we prove NP-hardness of distinguishing, for a directed graph on n nodes, between having a Hamiltonian p...
AbstractWe characterize edge-perfect graphs and prove that it is co-NP-complete to recognize them. I...
We prove NP-hardness of a wide class of pushing-block puzzles similar to the classic Sokoban, genera...
Clique-width is a graph parameter, defined by a composition mechanism for vertexlabeled graphs, whic...
© 2020 Information Processing Society of Japan. We analyze the computational complexity of several n...
We discuss some new geometric puzzles and the complexity of their extension to arbitrary sizes. For ...
The subject of this thesis is the algorithmic properties of one- and two-player games people enjoy p...
A computation consists of algorithm of basic operations. When you consider an algorithm, you assume,...
We characterize edge-perfect graphs and prove that it is co-NP-complete to recognize them. In conseq...
Clique-width is a graph parameter that measures in a certain sense the complexity of a graph. Hard g...
Recently, edge matching puzzles, an NP-complete problem, have rececived, thanks to money-prized cont...
Recently, edge matching puzzles, an NP-complete problem, have received, thanks to money-prized conte...
In this paper, we investigate the computational complexity of lattice puzzle, which is one of the tr...
For finite polyomino regions, tileability by a pair of rectangles is NP-complete for all but trivial...
The Buttons and Scissors puzzle was recently shown to be NP-hard. In this paper we continue studying...
AbstractWe present a new algorithm for automatically solving jigsaw puzzles by shape alone. The algo...
AbstractWe characterize edge-perfect graphs and prove that it is co-NP-complete to recognize them. I...
We prove NP-hardness of a wide class of pushing-block puzzles similar to the classic Sokoban, genera...
Clique-width is a graph parameter, defined by a composition mechanism for vertexlabeled graphs, whic...
© 2020 Information Processing Society of Japan. We analyze the computational complexity of several n...
We discuss some new geometric puzzles and the complexity of their extension to arbitrary sizes. For ...
The subject of this thesis is the algorithmic properties of one- and two-player games people enjoy p...
A computation consists of algorithm of basic operations. When you consider an algorithm, you assume,...
We characterize edge-perfect graphs and prove that it is co-NP-complete to recognize them. In conseq...
Clique-width is a graph parameter that measures in a certain sense the complexity of a graph. Hard g...
Recently, edge matching puzzles, an NP-complete problem, have rececived, thanks to money-prized cont...
Recently, edge matching puzzles, an NP-complete problem, have received, thanks to money-prized conte...
In this paper, we investigate the computational complexity of lattice puzzle, which is one of the tr...
For finite polyomino regions, tileability by a pair of rectangles is NP-complete for all but trivial...
The Buttons and Scissors puzzle was recently shown to be NP-hard. In this paper we continue studying...
AbstractWe present a new algorithm for automatically solving jigsaw puzzles by shape alone. The algo...
AbstractWe characterize edge-perfect graphs and prove that it is co-NP-complete to recognize them. I...
We prove NP-hardness of a wide class of pushing-block puzzles similar to the classic Sokoban, genera...
Clique-width is a graph parameter, defined by a composition mechanism for vertexlabeled graphs, whic...