Ying Guo, G. Poulton, G. James, P. Valencia, V. Gerasimov, Jiaming Li
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Designing stable structures in a multi-agent self-assembly system
We present a genetic algorithm-based approach to designing specific self-assembling structures that act as building blocks for assembling more complex objects. Our simulated environment models 2D square blocks as autonomous agents. A specific class of multi-agent self-assembled products is termed "enzymes" which are capable of producing other multi-agent self-assembled products whilst themselves remaining unchanged. The global goal of our self-assembly process is to produce large stable structures by evolving the enzyme and block parameters. Our experiments show that the "enzymes" can interact with the other blocks to produce a wide variety of stable self-assembling structures.
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