Title :
Self-organized distribution of tasks inside an autonomous mobile robotic system
Author :
Smolorz, Sebastian ; Wagner, Bernardo
Author_Institution :
Real Time Syst. Group, Leibniz Univ. Hannover, Hannover, Germany
Abstract :
Mobile multi-robot systems are a main focus in robotic research. An obvious advantage of operating with several robots is the fact that solving problems like exploration cooperatively is better, faster and more precise. But there is potentiality for another enhancement, namely the distribution of necessary tasks and algorithms to available computers in such a way that as much processing time as possible is left free to further intensify sophisticated approaches. This paper presents an idea for reaching an optimal task distribution pattern without human intervention based on the concept of Autonomie Computing. A genetic algorithm in combination with the max-plus algebra is proposed to generate, analyze and optimize task distribution patterns.
Keywords :
algebra; control engineering computing; fault tolerant computing; genetic algorithms; mobile robots; multi-robot systems; autonomic computing; autonomous mobile robotic system; available computers; genetic algorithm; max-plus algebra; mobile multirobot systems; optimal task distribution pattern; robotic research; self-organized tasks distribution; task distribution pattern optimization; Algebra; Computers; Genetic algorithms; Mobile robots; Optimization; Real time systems; autonomic computing; genetic algorithm; max-plus algebra; optimization; organic computing; real-time; self-organization; self-x; task distribution;
Conference_Titel :
Digital Ecosystems Technologies (DEST), 2012 6th IEEE International Conference on
Conference_Location :
Campione d´Italia
Print_ISBN :
978-1-4673-1702-3
Electronic_ISBN :
2150-4938
DOI :
10.1109/DEST.2012.6227947
