Cells and Robots is an outcome of the multidisciplinary research extending over Biology, Robotics and Hybrid Systems Theory. It is inspired by modeling reactive behavior of the immune system cell population, where each cell is considered as an independent agent. In our modeling approach, there is no difference if the cells are naturally or artificially created agents, such as robots. This appears even more evident when we introduce a case study concerning a large-size robotic population scenario. Under this scenario, we also formulate the optimal control of maximizing the probability of robotic presence in a given region and discuss the application of the Minimum Principle for partial differential equations to this problem. Simultaneous consideration of cell and robotic populations is of mutual benefit for Biology and Robotics, as well as for the general understanding of multi-agent system dynamics.The text of this monograph is based on the Ph D thesis of the first author. The work was a runner-up for the fifth edition of the Georges Giralt Award for the best European Ph D thesis in Robotics, annually awarded by the European Robotics Research Network (EURON).
Pedro U. Lima & Dejan Lj. Milutinovic
Cells and Robots [PDF ebook]
Modeling and Control of Large-Size Agent Populations
Cells and Robots [PDF ebook]
Modeling and Control of Large-Size Agent Populations
Köp den här e-boken och få 1 till GRATIS!
Språk Engelska ● Formatera PDF ● ISBN 9783540719823 ● Utgivare Springer Berlin Heidelberg ● Publicerad 2007 ● Nedladdningsbara 6 gånger ● Valuta EUR ● ID 6319992 ● Kopieringsskydd Adobe DRM
Kräver en DRM-kapabel e-läsare