Difference between revisions of "Identifying Shapes Using Self-Assembly"
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|authors=Matthew J. Patitz, Scott M. Summers | |authors=Matthew J. Patitz, Scott M. Summers | ||
|date=2010/06/15 | |date=2010/06/15 | ||
| − | |file=[http://arxiv.org/abs/1006.3046 | + | |file=[http://arxiv.org/abs/1006.3046 Identifying Shapes Using Self-Assembly] |
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Latest revision as of 11:29, 22 June 2021
Published on: 2010/06/15
Abstract
In this paper, we introduce the following problem in the theory of algorithmic self-assembly: given an input shape as the seed of a tile-based self-assembly system, design a finite tile set that can, in some sense, uniquely identify whether or not the given input shape--drawn from a very general class of shapes--matches a particular target shape. We first study the complexity of correctly identifying squares. Then we investigate the complexity associated with the identification of a considerably more general class of non-square, hole-free shapes.
Authors
Matthew J. Patitz, Scott M. Summers
