Active Manipulation of Elastic Rods using Optimization-based Shape Perception and Sensorimotor Model Approximation

Deformable object manipulation (DOM) remains challenging in robotics since the physical characteristics of deformable linear objects (DLO) are generally strongly nonlinear and unknown. This paper presents an active deformation frame-work for robot manipulating the elastic rod. The optimization-based...

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Vydáno v:Chinese Control Conference s. 3780 - 3785
Hlavní autoři: Ma, Guangfu, Qi, Jiaming, Lv, Yueyong, Zeng, Haibin
Médium: Konferenční příspěvek
Jazyk:angličtina
Vydáno: Technical Committee on Control Theory, Chinese Association of Automation 25.07.2022
Témata:
Adaptation models
Adaptive Kalman Filter
Deformable Objects
Feature extraction
Kalman filters
Robot motion
Robot sensing systems
Robotics
Sensor-based Control
Shape
Shape-servoing
Stability criteria
ISSN:1934-1768
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Shrnutí:Deformable object manipulation (DOM) remains challenging in robotics since the physical characteristics of deformable linear objects (DLO) are generally strongly nonlinear and unknown. This paper presents an active deformation frame-work for robot manipulating the elastic rod. The optimization-based curve fitting method is designed to extract a low-dimensional feature vector representing the three-dimensional centerline of the elastic rod. Deformation Jacobian Matrix (DJM) connecting feature changes and robot motion changes is estimated online by Adaptive Kalman Filter (AKF). The model-free velocity controller is designed based on the optimization criterion to accelerate the deformation speed of the elastic rod. The stability of the proposed manipulation framework and the boundedness of all signals in the closed-loop system are proved by Lyapunov theory. Detailed simulations are given to evaluate the performance of the proposed approach.
ISSN:1934-1768
DOI:10.23919/CCC55666.2022.9901658