The General diagram of the proposed approach is shown in Figure 1. A fundamental problem in collective robotics is to have the group organize into global formations or patterns. These include simple patterns like circles, lines, uniform distribution within a circle or square, etc. In the presence of a central controller, these tasks are trivial, but this is not the case in a distributed system. The main goal is to have self-autonomy robots, where each behaves independently from the others based its surrounding environment including other robots' behavior. Each robot might not be aware that it works within a group. Ducatelle et al.(Ducatelle, Di Caro, Pinciroli, Mondada, & Gambardella, 2011) proposed a collective behavior based on network routing, capable of guiding a robot from a source area to a target. Similarly to what happens in packet routing, the robots keep a table of the distance of other robots with respect to the target. A robot can then use the entries in the table and reach the target. ; https://www.edusoft.ro/brain/index.php/brain/article/view/695/774
BRAIN Journal-Swarm Robotics with Circular Formation Motion Including Obstacles Avoidance-Figure 1b.The five steps of Methodology Approach
2017-07-27
BRAIN. Broad Research in Artificial Intelligence and Neuroscience 8(2) 125-143
Sonstige
Elektronische Ressource
Englisch
DDC: | 629 |
BRAIN Journal - Swarm Robotics with Circular Formation Motion Including Obstacles Avoidance
BASE | 2017
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