Difference between revisions of "Shape Replication"

Revision as of 10:50, 14 July 2016

Overview

Replication is the concept of having a tile assembly system that can take input shapes and create new instances of that shape using a constant sized tile set.

Replication Using RNAse

In a paper by Abel, Benbernou, Damian, Demaine, Demaine, Flatland, Kominers, and Schweller^[1], it is shown that replication can be achieved using an RNase augmentation of the aTAM.

Replication Using Signal Passing Tiles

^[2]

References

↑ Zachary Abel, Nadia Benbernou, Mirela Damian, Erik D. Demaine, Martin L. Demaine, Robin Flatland, Scott D. Kominers,, Robert Schweller - Shape Replication through Self-Assembly and RNase Enzymes
ACM-SIAM Symposium on Discrete Algorithms ,2010
Bibtex
Author : Zachary Abel, Nadia Benbernou, Mirela Damian, Erik D. Demaine, Martin L. Demaine, Robin Flatland, Scott D. Kominers,, Robert Schweller
Title : Shape Replication through Self-Assembly and RNase Enzymes
In : ACM-SIAM Symposium on Discrete Algorithms -
Address :
Date : 2010
↑ Jacob Hendricks, Matthew J. Patitz,, Trent A. Rogers - Replication of arbitrary hole-free shapes via self-assembly with signal-passing tiles
aiXiv (1503.01244),2015
Bibtex
Author : Jacob Hendricks, Matthew J. Patitz,, Trent A. Rogers
Title : Replication of arbitrary hole-free shapes via self-assembly with signal-passing tiles
In : aiXiv -
Address :
Date : 2015

[RNase-1] Zachary Abel, Nadia Benbernou, Mirela Damian, Erik D. Demaine, Martin L. Demaine, Robin Flatland, Scott D. Kominers,, Robert Schweller - Shape Replication through Self-Assembly and RNase Enzymes
ACM-SIAM Symposium on Discrete Algorithms ,2010
Bibtex
Author : Zachary Abel, Nadia Benbernou, Mirela Damian, Erik D. Demaine, Martin L. Demaine, Robin Flatland, Scott D. Kominers,, Robert Schweller
Title : Shape Replication through Self-Assembly and RNase Enzymes
In : ACM-SIAM Symposium on Discrete Algorithms -
Address :
Date : 2010

[SPT-2] Jacob Hendricks, Matthew J. Patitz,, Trent A. Rogers - Replication of arbitrary hole-free shapes via self-assembly with signal-passing tiles
aiXiv (1503.01244),2015
Bibtex
Author : Jacob Hendricks, Matthew J. Patitz,, Trent A. Rogers
Title : Replication of arbitrary hole-free shapes via self-assembly with signal-passing tiles
In : aiXiv -
Address :
Date : 2015

[1]

[2]

@@ Line 1: / Line 1: @@
 ==Overview==
-Replication is the concept of having a tile assembly system that can take input shapes and create new instances.
+Replication is the concept of having a tile assembly system that can take input shapes and create new instances of that shape using a constant sized tile set.
 ==Replication Using RNAse==
-<ref name="RNase"/>
+In a paper by Abel, Benbernou, Damian, Demaine, Demaine, Flatland, Kominers, and Schweller<ref name="RNase"/>, it is shown that replication can be achieved using an RNase augmentation of the aTAM.
 ==Replication Using Signal Passing Tiles==

Difference between revisions of "Shape Replication"

Revision as of 10:50, 14 July 2016

Contents

Overview

Replication Using RNAse

Replication Using Signal Passing Tiles

References

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