A linear beam configuration model for controlling a tendon-driven continuum manipulator enabled independent control of multiple sections and was demonstrated on a cardiac catheter.
A novel linear beam configuration model allows for independent control of multiple articulating sections in tendon-driven continuum manipulators such as cardiac catheters.
Robotic control of flexible devices can enhance and simplify many medical procedures. We present a method for controlling a tendon-driven continuum manipulator by means of specifying the shape configuration. The basis for control is a linear beam configuration model that transforms beam configuration to tendon displacement by modeling internal loads of the compliant system. An essential aspect of this model is the inclusion of both the mechanical and geometrical coupling among serial articulating sections. Important capabilities of this model are the general forward kinematics and the decoupled inverse kinematics that allow for independent control of multiple sections. Tracking results are presented for a cardiac catheter with two articulating sections.
Camarillo et al. (Wed,) conducted a other in Robotic control of flexible medical devices. Linear beam configuration model for tendon-driven continuum manipulator was evaluated. A linear beam configuration model for controlling a tendon-driven continuum manipulator enabled independent control of multiple sections and was demonstrated on a cardiac catheter.