Self-assembly of 3-D structures using 2-D folding tiles
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Publication:6151175
DOI10.1007/s11047-019-09751-9zbMath1530.68089arXiv1807.04818OpenAlexW2884716323WikidataQ127590696 ScholiaQ127590696MaRDI QIDQ6151175
Jacob Hendricks, Michael Sharp, Matthew J. Patitz, Jérôme O. Durand-Lose, Ian Perkins
Publication date: 9 February 2024
Published in: Natural Computing (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/1807.04818
Cites Work
- Complexity classes for self-assembling flexible tiles
- Complexity of protein folding
- Signal transmission across tile assemblies: 3D static tiles simulate active self-assembly by 2D signal-passing tiles
- Reflections on tiles (in self-assembly)
- ASYNCHRONOUS SIGNAL PASSING FOR TILE SELF-ASSEMBLY: FUEL EFFICIENT COMPUTATION AND EFFICIENT ASSEMBLY OF SHAPES
- Common Unfoldings of Polyominoes and Polycubes
- Folding Polyominoes into (Poly)Cubes
- Asynchronous Signal Passing for Tile Self-assembly: Fuel Efficient Computation and Efficient Assembly of Shapes
- Unconventional Computation
- ACTIVE TILE SELF-ASSEMBLY, PART 1: UNIVERSALITY AT TEMPERATURE 1
- ACTIVE TILE SELF-ASSEMBLY, PART 2: SELF-SIMILAR STRUCTURES AND STRUCTURAL RECURSION
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