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Method to Measure Tone of Axial and Proximal Muscle
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Real-time UVMS torque distribution algorithm based on weighting matrix.

Yecheol Moon1, Jongin Hong1, Sangrok Jin2

  • 1School of Mechanical Engineering, Hanyang University, Seoul, South Korea.

Plos One
|July 2, 2021
PubMed
Summary
This summary is machine-generated.

This study introduces a real-time algorithm for autonomous underwater vehicle (AUV) and manipulator systems to evenly distribute torque. The method significantly reduces manipulator torque load during underwater tasks like valve rotation.

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Area of Science:

  • Robotics
  • Ocean Engineering
  • Control Systems

Background:

  • Underwater vehicle manipulator systems (UVMS) require efficient torque management for complex tasks.
  • Redundant robotic systems, like those on AUVs, present challenges in dynamic load distribution.
  • Accurate kinematic and dynamic modeling is crucial for effective control in underwater environments.

Purpose of the Study:

  • To develop and validate a real-time algorithm for equitable torque distribution between an AUV and its manipulator.
  • To optimize underwater robotic operations by minimizing manipulator torque burden.
  • To enhance the efficiency and precision of tasks performed by UVMS.

Main Methods:

  • Utilized a weighted pseudo-inverse approach with a weighting matrix for kinematic and dynamic modeling of the UVMS.
  • Implemented dynamic and kinematic modeling based on the force distribution characteristics of parallel manipulators.
  • Employed the Taguchi method to minimize calculation time for real-time processing and optimize torque for valve rotation tasks.
  • Dynamically adjusted the weighting matrix every second to facilitate AUV-manipulator torque sharing.

Main Results:

  • Experimental validation in an underwater environment demonstrated the algorithm's effectiveness.
  • Significant reduction in manipulator torque load was achieved through cooperative load distribution with the AUV.
  • The Taguchi method contributed to efficient real-time calculations, enabling precise valve rotation with minimal torque.

Conclusions:

  • The proposed real-time algorithm successfully achieves even torque distribution in UVMS.
  • Cooperative load sharing between the AUV and manipulator enhances operational efficiency and reduces stress on the manipulator.
  • This approach offers a viable solution for precise and low-torque manipulation in challenging underwater conditions.