1 Informatics Research Report Pattern formation for multi-robot applications: Robust, self-repairing systems inspired by genetic regulatory networks and cellular - Gene Taylor - Document - PDFSEARCH.IO - Document Search Engine

Back to Results

First Page	Meta Content
	1 Informatics Research Report Pattern formation for multi-robot applications: Robust, self-repairing systems inspired by genetic regulatory networks and cellular Add to Reading List Document Date: 2013-05-01 16:50:42 Open Document File Size: 2,90 MB Share Result on Facebook City Edinburgh / / Country Netherlands / United Kingdom / Denmark / / / Facility Institute of Perception / Maersk Mc-Kinney Moller Institute / University of Southern Denmark / University of Edinburgh / / IndustryTerm genetic regulatory networks / onboard systems / genetic algorithm / target hardware / diffusion site / control systems / regulatory network / genetic algorithms / employed evolutionary algorithms / 33MHz 386EX processor / communication site / respective diffusion site / simulation software / actuation systems / multi-robot systems / multi-robot applications / / Organization Maersk Mc-Kinney Moller Institute for Production Technology / Running / Institute of Perception / Action and Behaviour / University of Edinburgh / School of Informatics / / Person Gene Structure / Peter Ottery / Tim Taylor / John Hallam / / Position King / 3D model / CAM controller / combined controller / CAM-based controller / CAM-based controller for pattern formation / GRN controller / hybrid GRN-CAM controller / controller / Corresponding author / combined GRN-CAM controller / / Region Southern Denmark / / Technology RAM / neural network / gene expression / employed evolutionary algorithms / genetic algorithm / simulation / Flash / 33MHz 386EX processor / / SocialTag Gene regulatory network Gene Enhancer Regulation of gene expression Promoter Robotics Regulatory sequence Biology Gene expression Biochemistry