Decentralized Collective Transport along Manifolds Compatible with Holonomic Constraints by Robots with Minimal Global Information

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  • Additional Information
    • Publication Information:
      AACC
    • Publication Date:
      2020
    • Abstract:
      We present a decentralized adaptive control strategy for collective payload transport by differential-drive robots with manipulator arms. The controllers only require robots’ measurements of their own heading and velocity and their manipulator angle and angular velocity, and the only information provided to the robots is the target speed and direction of transport. The control strategy does not rely on inter-robot communication, prior information about the load dynamics and geometry, or knowledge of the number of robots and their distribution around the payload. We first design the desired manifolds of motion for the entire system such that they are compatible with the holonomic constraints between the robots and the payload. Then, we design adaptive controllers for a team of differential-drive robots that initially grasp a payload in an arbitrary configuration. We also analytically establish the stability and convergence of the system trajectories to the desired payload motion. We demonstrate the effectiveness of the proposed controllers through 3D physics simulations with realistic dynamics.
    • Contents Note:
      Conference Acronym: ACC
    • Author Affiliations:
      Arizona State University (ASU),School for Engineering of Matter, Transport and Energy,Tempe,AZ,USA,85287
    • ISBN:
      978-1-5386-8266-1
      978-1-5386-8265-4
    • ISSN:
      2378-5861
    • Relation:
      2020 American Control Conference (ACC)
    • Accession Number:
      10.23919/ACC45564.2020.9147247
    • Rights:
      Copyright 2020, AACC
    • AMSID:
      9147247
    • Conference Acronym:
      ACC
    • Date of Current Version:
      2020
    • Document Subtype:
      IEEE Conference
    • Notes:
      Conference Location: Denver, CO, USA, USA

      Conference Start Date: 1 July 2020

      Conference End Date: 3 July 2020
    • Accession Number:
      edseee.9147247
  • Citations
    • ABNT:
      FARIVARNEJAD, H.; BERMAN, S. Decentralized Collective Transport along Manifolds Compatible with Holonomic Constraints by Robots with Minimal Global Information. 2020 American Control Conference (ACC), American Control Conference (ACC), 2020, [s. l.], p. 2068–2075, 2020. DOI 10.23919/ACC45564.2020.9147247. Disponível em: http://search.ebscohost.com/login.aspx?direct=true&site=eds-live&db=edseee&AN=edseee.9147247. Acesso em: 30 set. 2020.
    • AMA:
      Farivarnejad H, Berman S. Decentralized Collective Transport along Manifolds Compatible with Holonomic Constraints by Robots with Minimal Global Information. 2020 American Control Conference (ACC), American Control Conference (ACC), 2020. July 2020:2068-2075. doi:10.23919/ACC45564.2020.9147247
    • APA:
      Farivarnejad, H., & Berman, S. (2020). Decentralized Collective Transport along Manifolds Compatible with Holonomic Constraints by Robots with Minimal Global Information. 2020 American Control Conference (ACC), American Control Conference (ACC), 2020, 2068–2075. https://doi.org/10.23919/ACC45564.2020.9147247
    • Chicago/Turabian: Author-Date:
      Farivarnejad, Hamed, and Spring Berman. 2020. “Decentralized Collective Transport along Manifolds Compatible with Holonomic Constraints by Robots with Minimal Global Information.” 2020 American Control Conference (ACC), American Control Conference (ACC), 2020, July, 2068–75. doi:10.23919/ACC45564.2020.9147247.
    • Harvard:
      Farivarnejad, H. and Berman, S. (2020) ‘Decentralized Collective Transport along Manifolds Compatible with Holonomic Constraints by Robots with Minimal Global Information’, 2020 American Control Conference (ACC), American Control Conference (ACC), 2020, pp. 2068–2075. doi: 10.23919/ACC45564.2020.9147247.
    • Harvard: Australian:
      Farivarnejad, H & Berman, S 2020, ‘Decentralized Collective Transport along Manifolds Compatible with Holonomic Constraints by Robots with Minimal Global Information’, 2020 American Control Conference (ACC), American Control Conference (ACC), 2020, pp. 2068–2075, viewed 30 September 2020, .
    • MLA:
      Farivarnejad, Hamed, and Spring Berman. “Decentralized Collective Transport along Manifolds Compatible with Holonomic Constraints by Robots with Minimal Global Information.” 2020 American Control Conference (ACC), American Control Conference (ACC), 2020, July 2020, pp. 2068–2075. EBSCOhost, doi:10.23919/ACC45564.2020.9147247.
    • Chicago/Turabian: Humanities:
      Farivarnejad, Hamed, and Spring Berman. “Decentralized Collective Transport along Manifolds Compatible with Holonomic Constraints by Robots with Minimal Global Information.” 2020 American Control Conference (ACC), American Control Conference (ACC), 2020, July 1, 2020, 2068–75. doi:10.23919/ACC45564.2020.9147247.
    • Vancouver/ICMJE:
      Farivarnejad H, Berman S. Decentralized Collective Transport along Manifolds Compatible with Holonomic Constraints by Robots with Minimal Global Information. 2020 American Control Conference (ACC), American Control Conference (ACC), 2020 [Internet]. 2020 Jul 1 [cited 2020 Sep 30];2068–75. Available from: http://search.ebscohost.com/login.aspx?direct=true&site=eds-live&db=edseee&AN=edseee.9147247