Swarm robotics is the study of how large numbers of relatively simple physically embodied agentscanbe designedsuchthat a desiredcollectivebehavioremerges from the local interactions among agents and between the agents and the en- ronment. Swarm robotics has emerged as a novel approach to the coordination of large numbers of robots and is inspired from observation of social insects – ants, termites, wasps and bees – which stand as fascinating examples of how a large number of simple individuals can interact to create collectively intelligent systems. Socialinsects areknownto coordinatetheir actionsto accomplishtasks that are far beyond the capabilities of a single individual: termites build large and complex mounds, army ants organize impressive foraging raids, ants can collectively carry large prey. Such coordination capabilities are still well beyond the reach of current multi-robot systems. Researchon swarmroboticshasseen a signi?cantincreasein the last 5 years. A number of successful swarm robotic systems have now been demonstrated in the laboratory and the study of the design, modelling, implementation and analysis of swarm robotic systems has become a hot topic of research. This workshop was organized within SAB 2006, as a sequel to the successful ?rst swarmroboticsworkshopin2004,withtheaimofreviewingandupdatingrecent advances on the topic. We received 21 full papers (20 research + 1 review) and accepted 14 (13 research + 1 review). Overall, we, as organizers, were pleased with the number of submissions, and a number of our reviewers explicitly commented on the generally high quality of the papers.
Author(s): Thomas Schmickl, Karl Crailsheim (auth.), Erol Şahin, William M. Spears, Alan F. T. Winfield (eds.)
Series: Lecture Notes in Computer Science 4433 : Theoretical Computer Science and General Issues
Edition: 1
Publisher: Springer-Verlag Berlin Heidelberg
Year: 2007
Language: English
Pages: 228
Tags: Computation by Abstract Devices; Artificial Intelligence (incl. Robotics); Computer Communication Networks; Algorithm Analysis and Problem Complexity
Front Matter....Pages -
A Navigation Algorithm for Swarm Robotics Inspired by Slime Mold Aggregation....Pages 1-13
Strategies for Energy Optimisation in a Swarm of Foraging Robots....Pages 14-26
A Macroscopic Model for Self-organized Aggregation in Swarm Robotic Systems....Pages 27-42
An Analytical and Spatial Model of Foraging in a Swarm of Robots....Pages 43-55
Algorithms for the Analysis and Synthesis of a Bio-inspired Swarm Robotic System....Pages 56-70
Coordination and Control of Multi-agent Dynamic Systems: Models and Approaches....Pages 71-102
Communication in a Swarm of Miniature Robots: The e-Puck as an Educational Tool for Swarm Robotics....Pages 103-115
UltraSwarm: A Further Step Towards a Flock of Miniature Helicopters....Pages 116-128
Where Are You?....Pages 129-143
Collective Perception in a Robot Swarm....Pages 144-157
Distributed Task Selection in Multi-agent Based Swarms Using Heuristic Strategies....Pages 158-172
Evolution of Signalling in a Group of Robots Controlled by Dynamic Neural Networks....Pages 173-188
Collective Specialization for Evolutionary Design of a Multi-robot System....Pages 189-205
Scalability in Evolved Neurocontrollers That Guide a Swarm of Robots in a Navigation Task....Pages 206-220
Back Matter....Pages -
