While computer science has given us a framework for determining the complexity and difficulty of solving computational problems, we do not yet have a theoretical framework for knowing what actions, behaviors, and life-like qualities can emerge from a given set of simple modular units. There has been much interest in developing models for programming active self-assembly processes in both the reconfigurable robotics community and the nanotechnology community. With respect to materials science and nanotechnology, the models proposed to date are either not yet implementable with our current understanding of synthetic chemistry or those that are implementable are limited to a set of features that do not capture the power of active components....
Tile-based self-assembly and chemical reaction networks provide two well-studied models of scalable ...
AbstractSwarm robotics, active self-assembly, and amorphous computing are fields that focus on desig...
DNA nanotechnology has emerged as a reliable and programmable way of controlling matter at the nano...
While computer science has given us a framework for determining the complexity and difficulty of sol...
We describe a computational model for studying the complexity of self-assembled structures with acti...
Computer science and electrical engineering have been the great success story of the twentieth centu...
We study the computational complexity of the recently proposed nubots model of molecular-scale self-...
Molecular biology provides an inspiring proof-of-principle that chemical systems can store and proc...
We study the computational complexity of the recently proposed nubots model of molecular-scale self-...
Algorithmic self-assembly, a generalization of crystal growth processes, has been proposed as a mech...
We describe a computational model for studying the complexity of self-assembled structures with acti...
Algorithms and information, fundamental to technological and biological organization, are also an es...
Biology provides the synthetic chemist with a tantalizing and frustrating challenge: to create comp...
Bottom-up fabrication of nanoscale structures relies on chemical processes to direct self-assembly. ...
Molecular self-assembly, the formation of large structures by small pieces of matter sticking togeth...
Tile-based self-assembly and chemical reaction networks provide two well-studied models of scalable ...
AbstractSwarm robotics, active self-assembly, and amorphous computing are fields that focus on desig...
DNA nanotechnology has emerged as a reliable and programmable way of controlling matter at the nano...
While computer science has given us a framework for determining the complexity and difficulty of sol...
We describe a computational model for studying the complexity of self-assembled structures with acti...
Computer science and electrical engineering have been the great success story of the twentieth centu...
We study the computational complexity of the recently proposed nubots model of molecular-scale self-...
Molecular biology provides an inspiring proof-of-principle that chemical systems can store and proc...
We study the computational complexity of the recently proposed nubots model of molecular-scale self-...
Algorithmic self-assembly, a generalization of crystal growth processes, has been proposed as a mech...
We describe a computational model for studying the complexity of self-assembled structures with acti...
Algorithms and information, fundamental to technological and biological organization, are also an es...
Biology provides the synthetic chemist with a tantalizing and frustrating challenge: to create comp...
Bottom-up fabrication of nanoscale structures relies on chemical processes to direct self-assembly. ...
Molecular self-assembly, the formation of large structures by small pieces of matter sticking togeth...
Tile-based self-assembly and chemical reaction networks provide two well-studied models of scalable ...
AbstractSwarm robotics, active self-assembly, and amorphous computing are fields that focus on desig...
DNA nanotechnology has emerged as a reliable and programmable way of controlling matter at the nano...