Difference between revisions of "Open Problems"

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<li>In [[One Tile to Rule Them All: Simulating Any Turing Machine, Tile Assembly System, or Tiling System with a Single Puzzle Piece]], Demaine et al. showed that it is possible to turn any aTAM system into a single rotatable (non-square) tile which simulates it.  They also showed how to adapt this result to convert any of a variety of plane tiling systems (such as Wang tiles) into a "nearly" plane tiling system with a single tile (but with small gaps between the tiles).  An open question is whether or not this can be improved to result in a system which fully tiles the plane. (This has been an open problem in tiling theory for many years.)</li>
 
<li>In [[One Tile to Rule Them All: Simulating Any Turing Machine, Tile Assembly System, or Tiling System with a Single Puzzle Piece]], Demaine et al. showed that it is possible to turn any aTAM system into a single rotatable (non-square) tile which simulates it.  They also showed how to adapt this result to convert any of a variety of plane tiling systems (such as Wang tiles) into a "nearly" plane tiling system with a single tile (but with small gaps between the tiles).  An open question is whether or not this can be improved to result in a system which fully tiles the plane. (This has been an open problem in tiling theory for many years.)</li>
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<li>In [[Two Hands Are Better Than One (up to constant factors)]], among other results, Cannon et al. proved that in the 3D 2HAM, if you are given a system $\mathcal{T}$ and an assembly $\alpha$, it is co-NP complete to determine if $\alpha$ is the unique terminal assembly of $\mathcal{T}$.  It remains open what the complexity of this problem is in 2D.  In the same paper, they showed how any aTAM system can be simulated by a 2HAM system at scale factor 5.  It remains open how small this scale factor can actually be.</li>
  
 
==References==
 
==References==

Revision as of 14:12, 13 June 2015

The following is a partial list of some of the many open problems in self-assembly: