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Jacobian-Based Task-Space Motion Planning for MRI-Actuated Continuum Robots
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Abstract
Robot-assisted medical interventions, such as robotic catheter ablation, often require
the robot to perform tasks on a tissue surface. This paper presents a task-space motion
planning method that generates actuation trajectories which steer the end- effector
of the MRI-actuated robot along desired trajectories on the surface. The continuum
robot is modeled using the pseudo-rigid-body model, where the continuum body of the
robot is approximated by rigid links joined by flexible joints. The quasistatic motion
model of the robot is formulated as a potential energy minimization problem. The Jacobian
of the quasistatic motion model is used in calculating the actuations that steer the
tip in the desired directions. The proposed method is validated experimentally in
a clinical 3-T MRI scanner.
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