Difference between revisions of "Signal-passing Tile Assembly Model (STAM)"

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Signal Tile Assembly Model (STAM) describes a signaled tile self assembly process that enriches the tile assembly paradigm with improved capabilities and allows tile assembly to more closely emulate biological and natural processes.
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The ''signal tile assembly model''(STAM) describes a signaled tile self assembly process that enriches the tile assembly paradigm with improved capabilities and allows tile assembly to more closely emulate biological and natural processes.
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Signaled glue activation was introduced for the purpose of allowing supertiles to take on new identities or roles once assembled [1], so that supertile interactions as described in hierarchical models such as the [[Two-Handed Assembly Model (2HAM)]] can simulate the interactions of individual tiles.
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The generalized model presented here has been designed to take into consideration a DNA implementation of all aspects of signaled assembly: binding, signaling, and glue activation or deactivation.
  
Signaled glue activation was introduced for the purpose of allowing supertiles to take on new identities
 
or roles once assembled [1], so that supertile interactions as described in hierarchical models such as the
 
[[Two-Handed Assembly Model (2HAM)]] can simulate the interactions of individual tiles.
 
  
The ''signal tile assembly model''
 
  
 
[[Category: TAM]]
 
[[Category: TAM]]

Revision as of 18:19, 24 February 2012

The signal tile assembly model(STAM) describes a signaled tile self assembly process that enriches the tile assembly paradigm with improved capabilities and allows tile assembly to more closely emulate biological and natural processes.

Signaled glue activation was introduced for the purpose of allowing supertiles to take on new identities or roles once assembled [1], so that supertile interactions as described in hierarchical models such as the Two-Handed Assembly Model (2HAM) can simulate the interactions of individual tiles.


The generalized model presented here has been designed to take into consideration a DNA implementation of all aspects of signaled assembly: binding, signaling, and glue activation or deactivation.


1. J.E. Padilla, W. Liu, and N.C. Seeman, Hierarchical self assembly of patterns from the Robinson tilings: DNA tile design in an enhanced tile assembly model, Natural Computing online first, 17 August 2011 (2011).