Handbook of collective robotics : fundamentals and challenges
Author(s)
Bibliographic Information
Handbook of collective robotics : fundamentals and challenges
Pan Stanford, c2013
Available at 3 libraries
  Aomori
  Iwate
  Miyagi
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Description and Table of Contents
Description
This book is devoted to mechatronic, chemical, bacteriological, biological, and hybrid systems, utilizing cooperative, networked, swarm, self-organizing, evolutionary and bio-inspired design principles and targeting underwater, ground, air, and space applications. It addresses issues such as open-ended evolution, self-replication, self-development, reliability, scalability, energy foraging, adaptivity, and artificial sociality. The book has been prepared by 52 authors from world-leading research groups in 14 countries. This book covers not only current but also future key technologies and is aimed at anyone who is interested in learning more about collective robotics and how it might affect our society.
Table of Contents
Introduction to Collective Robotics: Reliability, Flexibility, and Scalability. The Swarm-Bot Experience: Strength and Mobility Through Physical Cooperation. Architectures and Control of Networked Robotic Systems. Cooperative Robotics In Robocup Soccer Is Not Just Playing a Game. Evolving Collective Control, Cooperation and Distributed Cognition. Reliability and Fault Tolerance in Collective Robot Systems. Collective Reconfigurable Systems: Fundamentals of Self-reconfiguration Planning. Large-Scale Experiments in Aggregation and Self-Assembly. Bio-Mimetic and Bio-Inspired Design of Collective Systems. Improving the Scalability of Collective Systems. Collective Foraging: Cleaning, Energy Harvesting and Trophallaxis. Individual, Social and Evolutionary Adaptation in Collective Systems. Replicators: From Molecules to Organisms. Developmental Collective Robotics: Advantages and Challenges of Unbounded Self-Development. A General Methodology for the Control of Mixed Natural Artificial Societies. Underwater Robot Swarms: Challenges and Opportunities. Aerial Collective Systems. Collective Systems in Space and for Planetary Explorations. Nanorobotics: A Perspective. Minimalistic Large-Scale Micro-Robotic Systems. Chemical Swarm Robots. Performing Collective Tasks with Flagellated Bacteria Acting as Natural and Hybrid Microrobots.
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