1 research outputs found
Design and Experimental Evaluation of a Haptic Robot-Assisted System for Femur Fracture Surgery
In the face of challenges encountered during femur fracture surgery, such as
the high rates of malalignment and X-ray exposure to operating personnel,
robot-assisted surgery has emerged as an alternative to conventional
state-of-the-art surgical methods. This paper introduces the development of
Robossis, a haptic system for robot-assisted femur fracture surgery. Robossis
comprises a 7-DOF haptic controller and a 6-DOF surgical robot. A unilateral
control architecture is developed to address the kinematic mismatch and the
motion transfer between the haptic controller and the Robossis surgical robot.
A real-time motion control pipeline is designed to address the motion transfer
and evaluated through experimental testing. The analysis illustrates that the
Robossis surgical robot can adhere to the desired trajectory from the haptic
controller with an average translational error of 0.32 mm and a rotational
error of 0.07 deg. Additionally, a haptic rendering pipeline is developed to
resolve the kinematic mismatch by constraining the haptic controller (user
hand) movement within the permissible joint limits of the Robossis surgical
robot. Lastly, in a cadaveric lab test, the Robossis system assisted surgeons
during a mock femur fracture surgery. The result shows that Robossis can
provide an intuitive solution for surgeons to perform femur fracture surgery.Comment: This paper is to be submitted to an IEEE journa