Modeling and control of robotic surgical platform for single-port access surgery
Jusuk Lee, Jiyoung Kim, Kwang-Kyu Lee, Seungyong Hyung, Yong-Jae Kim, Woong Kwon, Kyungshik Roh, Jungyun Choi
- Year
- 2014
- Citations
- 33
Abstract
In this paper, we present a modeling and control method for a single-port access robot developed by our robotics group at the Samsung Advanced Institute of Technology. The surgical robot consists of a snake-like 6-degree-of-freedom (DOF) guide tube, two 7-DOF tools, a 3-DOF stereo camera, and a 5-DOF slave arm. The robot is capable of reaching various surgical sites inside the abdominal cavity from a single incision on the body. To estimate the workspace and control the guide tube to a desired location, we first obtain the forward kinematics model of the guide tube and then propose a Cartesian-level controller. The wire actuation mechanism for the tools exhibit nonlinear backlash behavior because of wire compliance and friction between the wire and Teflon-coated conduit. We compensate for the backlash in the tool joints by adding the backlash inverse with smoothing term as a feedforward term.
Keywords
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