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Combined display of all available logs of self-assembly wiki. You can narrow down the view by selecting a log type, the username (case-sensitive), or the affected page (also case-sensitive).
- 21:51, 29 July 2019 \(1 created page \)3 (Created page with "Category:Self-assembly ==Abstract== Sending signals through DNA-based structures is one of the methods used to enhance the capabilities of DNA self-assembly systems. Sign...")
- 21:44, 29 July 2019 \(1 created page \)3
- 21:44, 29 July 2019 \(1 uploaded \)3
- 12:40, 23 July 2019 \(1 created page \)3 (Created page with "Category:Self-assembly This paper explores some of the potential uses of nano scale DNA facilitated self assembled systems. Rather than exploring the power and capabilitie...")
- 12:35, 23 July 2019 \(1 created page \)3
- 12:35, 23 July 2019 \(1 uploaded \)3
- 20:17, 15 July 2019 \(1 created page \)3 (Strict self assembly of discrete self similar Sierpinski shapes in a generalization of the 2HAM model, called h-HAM)
- 20:05, 15 July 2019 \(1 created page \)3 (Hierarchical diagram showing the assembly of the non-tree sierpinski triangle in the hham system)
- 20:05, 15 July 2019 \(1 uploaded \)3 (Hierarchical diagram showing the assembly of the non-tree sierpinski triangle in the hham system)
- 19:55, 15 July 2019 \(1 created page \)3 (Results pertaining to the new h-ham model and its capability to strictly assemble fractal shapes)
- 19:55, 15 July 2019 \(1 uploaded \)3 (Results pertaining to the new h-ham model and its capability to strictly assemble fractal shapes)
- 15:16, 8 July 2019 \(1 created page \)3 (2D non cooperative pumping lemma result)
- 15:13, 8 July 2019 \(1 created page \)3 (Figure 4.1 from Non-cooperatively assembling large structures:a 2Dpumping lemma cannot be as powerful as its 1Dcounterpart; https://arxiv.org/pdf/1902.02253.pdf)
- 15:13, 8 July 2019 \(1 uploaded \)3 (Figure 4.1 from Non-cooperatively assembling large structures:a 2Dpumping lemma cannot be as powerful as its 1Dcounterpart; https://arxiv.org/pdf/1902.02253.pdf)
- 12:32, 1 July 2019 \(1 created page \)3 (Created page with "Category:Self-assembly DNA-assisted swarm control in a biomolecular motor system ==Abstract== In nature, swarming behavior has evolved repeatedly among motile organisms...")
- 12:27, 1 July 2019 \(1 created page \)3 (Fig 5 from DNA-assisted swarm control in a biomolecular motor system, by Keya et al.)
- 12:27, 1 July 2019 \(1 uploaded \)3 (Fig 5 from DNA-assisted swarm control in a biomolecular motor system, by Keya et al.)
- 12:11, 1 July 2019 \(1 created page \)3 (Fig. 3 from DNA-assisted swarm control in a biomolecular motor system, keya et al.)
- 12:11, 1 July 2019 \(1 uploaded \)3 (Fig. 3 from DNA-assisted swarm control in a biomolecular motor system, keya et al.)
- 12:30, 21 June 2019 \(1 created page \)3 (Tile Automata general page)
- 12:14, 21 June 2019 \(1 created page \)3 (Example of a simple Tile Automata system. created by JCA.)
- 12:14, 21 June 2019 \(1 uploaded \)3 (Example of a simple Tile Automata system. created by JCA.)
- 14:46, 17 June 2019 \(1 created page \)3 (Created page with "Category:Self-assembly aTAM progresses under the assumption that all reactants (tiles, assemblies, etc.) coexist in a test tube environment at equal and constant concentra...")
- 14:43, 17 June 2019 \(1 created page \)3 (Figure 2 from Kao, Ming-Yang, and Robert Schweller. "Randomized self-assembly for approximate shapes." International Colloquium on Automata, Languages, and Programming. Springer, Berlin, Heidelberg, 2008.)
- 14:43, 17 June 2019 \(1 uploaded \)3 (Figure 2 from Kao, Ming-Yang, and Robert Schweller. "Randomized self-assembly for approximate shapes." International Colloquium on Automata, Languages, and Programming. Springer, Berlin, Heidelberg, 2008.)
- 15:07, 10 June 2019 \(1 created page \)3 (CRN, chemical reaction networks)
- 14:25, 4 June 2019 \(1 created page \)3 (Amoebots, a programmable matter computational model)
- 14:20, 4 June 2019 \(1 created page \)3 (Amoebot particles forming a bridge across a gapped structure.)
- 14:20, 4 June 2019 \(1 uploaded \)3 (Amoebot particles forming a bridge across a gapped structure.)
- 13:56, 4 June 2019 \(1 created page \)3 (Introductory image to illustrate the configurations Amoebot particles might embody on the triangular lattice.)
- 13:56, 4 June 2019 \(1 uploaded \)3 (Introductory image to illustrate the configurations Amoebot particles might embody on the triangular lattice.)
