Self-organized Collective Motion with a Simulated Real Robot Swarm

Mohsen Raoufi, Ali Emre Turgut, Farshad Arvin

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    Abstract

    Collective motion is one of the most fascinating phenomena observed in nature. In the last decade, it aroused so much attention in physics, control and robotics fields. In particular, many studies have been done in swarm robotics related to collective motion, also called flocking. In most of these studies, robots use orientation and proximity of their neighbors to achieve collective motion. In such an approach, one of the biggest problems is to measure orientation information using on-board sensors. In most of the studies, this information is either simulated or implemented using communication. In this paper, we implemented a fully autonomous coordinated motion without alignment using very simple Mona robots. We used an approach based on Active Elastic Sheet (AES) method. We modified the method and added the capability to enable the swarm to move toward a desired direction and rotate about an arbitrary point. The parameters of the modified method are optimized using TCACS optimization algorithm. We tested our approach in different settings using Matlab and Webots.

    Original languageEnglish
    Title of host publicationTowards Autonomous Robotic Systems
    DOIs
    Publication statusPublished - 2019
    EventTowards Autonomous Robotic Systems - Queen Mary University, London, United Kingdom
    Duration: 3 Jul 2019 → …
    https://www.qmul.ac.uk/robotics/events/taros2019/

    Conference

    ConferenceTowards Autonomous Robotic Systems
    Abbreviated titleTAROS 2019
    Country/TerritoryUnited Kingdom
    CityLondon
    Period3/07/19 → …
    Internet address

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