Development of a surgical robot for single-port surgery and its position tracking control. Yamaoka, D., Oiwa, K., Maeda, S., & Ishii, C. In 2014 IEEE International Conference on Robotics and Biomimetics (ROBIO 2014), pages 41–46, December, 2014. doi abstract bibtex This paper discusses the development of a novel surgical robot for single-port surgery (SPS) and proposes use of the robot's position control method, which is based on inverse kinematics. The developed surgical robot consists of two forceps manipulators and two robotic arms and can achieve a forceps placement called “rotation formation” that makes it possible to enlarge a surgical-instrument work space from that used with conventional forceps formation. The position control method was derived using the Jacobian matrix and Newton's method. To evaluate the accuracy of the developed surgical robot and the tracking performance of its position control method, position control experiments were conducted; the experimental results are presented here.
@inproceedings{yamaoka_development_2014,
title = {Development of a surgical robot for single-port surgery and its position tracking control},
doi = {10.1109/ROBIO.2014.7090304},
abstract = {This paper discusses the development of a novel surgical robot for single-port surgery (SPS) and proposes use of the robot's position control method, which is based on inverse kinematics. The developed surgical robot consists of two forceps manipulators and two robotic arms and can achieve a forceps placement called “rotation formation” that makes it possible to enlarge a surgical-instrument work space from that used with conventional forceps formation. The position control method was derived using the Jacobian matrix and Newton's method. To evaluate the accuracy of the developed surgical robot and the tracking performance of its position control method, position control experiments were conducted; the experimental results are presented here.},
booktitle = {2014 {IEEE} {International} {Conference} on {Robotics} and {Biomimetics} ({ROBIO} 2014)},
author = {Yamaoka, Daisuke and Oiwa, Katsuaki and Maeda, Shotaro and Ishii, Chiharu},
month = dec,
year = {2014},
keywords = {Jacobian matrices, Jacobian matrix, Kinematics, Laparoscopes, Manipulators, Medical robotics, Newton method, Robot kinematics, SPS, Standards, forceps manipulators, forceps placement, inverse kinematics, manipulator kinematics, medical robotics, position control, position tracking control, robotic arms, rotation formation, single-port surgery, surgery, surgical robot},
pages = {41--46},
}
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