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Abstract: DNA self-assembly is emerging as a key paradigm for nanotechnology, nano-computation, and several related disciplines. In nature, DNA self-assembly is often equipped with explicit mechanisms for both error prevention and error correction. For artificial self-assembly, these problems are even more important since we are interested in assembling large systems with great precision. So far, theoretical studies of DNA self-assembly have primarily focused on the e#ciency of the assembly process in... (Update)
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Compact Error-Resilient Computational DNA Tiling Assemblies - John Reif Sudheer (Correct)
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1.9: Invadable Self-Assembly: Combining Robustness with Eciency - Ho-Lin Chen Qi (2004) (Correct)
1.5: Optimal Self-Assembly of Counters at - Temperature Two Qi (Correct)
1.2: Error Free Self-Assembly using Error Prone Tiles - Ho-Lin Chen Ashish (Correct)
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0.7: Running Time and Program Size for Self-assembled Squares - Leonard Adleman University (2001) (Correct)
0.6: Combinatorial Optimization Problems in Self-Assembly - Adleman, Cheng, Goel.. (2002) (Correct)
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BibTeX entry: (Update)
H. L. Chen, Q. Cheng, A. Goel, M. deh Huang, and P. M. de Espanes. Invadable self-assembly: Combining robustness with efficiency. In ACM-SIAM Symposium on Discrete Algorithms (SODA), 2004. http://citeseer.ist.psu.edu/article/chen04invadable.html More
@misc{ chen04invadable,
author = "H. Chen and Q. Cheng and A. Goel and M. Huang and P. de Espanes",
title = "Invadable self-assembly: Combining robustness with efficiency",
text = "H. L. Chen, Q. Cheng, A. Goel, M. deh Huang, and P. M. de Espanes. Invadable
self-assembly: Combining robustness with efficiency. In ACM-SIAM Symposium
on Discrete Algorithms (SODA), 2004.",
year = "2004",
url = "citeseer.ist.psu.edu/article/chen04invadable.html" }
Citations (may not include all citations):36 Proving theorems by pattern recognition ii (context) - Wang - 1961
32 Universal computation via self-assembly of dna: Some theory .. - Winfree, Yang et al. - 1996
31 Design and self-assembly of two-dimensional dna crystals (context) - Winfree, Liu et al. - 1998
15 The program-size complexity of self-assembled squares (context) - Rothemund, Winfree - 2000
10 California Institute of Technology (context) - Winfree, of et al. - 1998
9 Towards a mathematical theory of selfassembly (context) - Adleman - 2000
7 Running time and program size for self-assembled squares - Adleman, Cheng et al. - 2001
7 A dna-fuelled molecular machine made of dna (context) - Yurke, Turberfield et al. - 2000
7 Combinatorial optimization problems in self-assembly - Adleman, Cheng et al. - 2002
6 dna self-assembly for satisfiability (context) - Lagoudakis, LaBean - 1999
6 Local parallel biomolecular computation - Reif - 1998
6 Theory and Experiments in Algorithmic Self-Assembly (context) - Rothemund - 2001
3 Resolving two open problems in the self-assembly of squares (context) - Cheng, de Espanes - 2003
3 Personal communication (context) - Winfree
Documents on the same site (http://www.stanford.edu/~holin/):
Error Free Self-Assembly using Error Prone Tiles - Ho-Lin Chen Ashish (Correct)
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