David Abraham Morales-Enríquez, Jaime Guzmán-López, Raúl Alejandro Aguilar-Ramírez, Jorge Luis Lorenzo-Martínez, Daniel Sapién-Garza, Ricardo Cortez, Norma Lozada-Castillo, Alberto Luviano-Juárez
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引用次数: 0
Abstract
In this work, the position control of a cable-driven soft robot is proposed through the approximation of its kinematic model. This approximation is derived from artificial learning rules via neural networks and experimentally observed data. To improve the learning process, a combination of active sampling and Model Agnostic Meta Learning is carried out to improve the data based model to be used in the control stage through the inverse velocity kinematics derived from the data based modeling along with a self differentiation procedure to come up with the pseudo inverse of the robot Jacobian. The proposal is verified in a designed and constructed cable-driven soft robot with three actuators and position measurement through a vision system with three-dimensional motion. Some preliminary assessments (tension and repeatability) were performed to validate the robot movement generation, and, finally, a 3D reference trajectory was tracked using the proposed approach, achieving competitive tracking errors.
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