TR2024-095

A Differentiable Dynamic Modeling Approach to Integrated Motion Planning and Actuator Physical Design for Mobile Manipulators


    •  Lu, Z., Wang, Y., "A Differentiable Dynamic Modeling Approach to Integrated Motion Planning and Actuator Physical Design for Mobile Manipulators", Journal of Field Robotics, DOI: 10.1002/​rob.22394, July 2024.
      BibTeX TR2024-095 PDF
      • @article{Lu2024jul,
      • author = {Lu, Zehui and Wang, Yebin}},
      • title = {A Differentiable Dynamic Modeling Approach to Integrated Motion Planning and Actuator Physical Design for Mobile Manipulators},
      • journal = {Journal of Field Robotics},
      • year = 2024,
      • month = jul,
      • doi = {10.1002/rob.22394},
      • url = {https://www.merl.com/publications/TR2024-095}
      • }
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  • Research Areas:

    Control, Electric Systems, Multi-Physical Modeling, Optimization

Abstract:

This paper investigates the differentiable dynamic modeling of mobile manipulators to facilitate efficient motion planning and physical design of actuators, where the actuator design is parameterized by physically meaningful motor geometry parameters. These parameters impact the manipulator’s link mass, inertia, center-of-mass, torque constraints, and angular velocity constraints, influencing control authority in motion planning and trajectory tracking control.
A motor’s maximum torque/speed and how the design parameters affect the dynamics are modeled analytically, facilitating differentiable and analytical dynamic modeling. Additionally, an integrated locomotion and manipulation planning problem is formulated with direct collocation discretization, using the proposed differentiable dynamics and motor parameterization. Such dynamics are required to capture the dynamic coupling between the base and the manipulator. Numerical experiments demonstrate the effectiveness of differentiable dynamics in speeding up optimization and advantages in task completion time and energy consumption over established sequential motion planning approach. Finally, this paper introduces a simultaneous actuator design and motion planning framework, providing numerical results to validate the proposed differentiable modeling approach for co-design problems.

 

  • Related Publication

  •  Lu, Z., Wang, Y., "A Differentiable Dynamic Modeling Approach to Integrated Motion Planning and Actuator Physical Design for Mobile Manipulators", arXiv, May 2024.
    BibTeX arXiv
    • @article{Lu2024may,
    • author = {Lu, Zehui and Wang, Yebin}},
    • title = {A Differentiable Dynamic Modeling Approach to Integrated Motion Planning and Actuator Physical Design for Mobile Manipulators},
    • journal = {arXiv},
    • year = 2024,
    • month = may,
    • url = {https://arxiv.org/abs/2405.00882}
    • }