An image processing method for changing endoscope direction based on pupil movement

An image processing method for changing endoscope direction based on pupil movement

Increased attention has been focused on laparoscopic surgery because of its minimal invasiveness and improved cosmetic properties. However, the procedure of laparoscopic surgery is considerably difficult for surgeons, thus paving the way for the introduction of robotic technology to reduce the surge...

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Bibliographic Details
Published in:ROBOMECH journal Vol. 3; no. 1; p. 1
Main Authors: Cao, Yang, Miura, Satoshi, Liu, Quanquan, Kobayashi, Yo, Kawamura, Kazuya, Sugano, Shigeki, Fujie, Masakatsu G.
Format: Journal Article
Language:English
Published: Cham Springer International Publishing 22-01-2016
Springer Nature B.V
Subjects:
Artificial Intelligence
Computational Intelligence
Control and Systems Theory
Engineering
Mechatronics
Research Article
Robotics and Automation
Activation threshold
Non-rigid face tracking
Image processing
Single-port endoscopic surgery
Double-screw-drive mechanism
Master–slave structure
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Summary:Increased attention has been focused on laparoscopic surgery because of its minimal invasiveness and improved cosmetic properties. However, the procedure of laparoscopic surgery is considerably difficult for surgeons, thus paving the way for the introduction of robotic technology to reduce the surgeon’s burden. Thus, we have developed a single-port surgery assistive robot with a master–slave structure that has two surgical manipulators and a sheath manipulator for the alteration of endoscope direction. During the development of the surgical robotic system, achieving intuitive operation is very important. In this paper, we propose a new laparoscope manipulator control system based on the movement of the pupils to enhance intuitive operability. We achieve this using a webcam and an image processing method. After the pupil movement data are obtained, the master computer transforms these data into an output signal, and then the slave computer receives and uses that signal to drive the robot. The details of the system and the pupil detection procedure are explained. The aim of the present experiment is to verify the effectiveness of the image processing method applied to the alteration of endoscope direction control system. For this purpose, we need to determine an appropriate pupil motion activation threshold to begin the sheath manipulator’s movement. We used four kinds of activation threshold, measuring the time cost of a particular operation: to move the image of the endoscope to a specific target position. Moreover, we identified an appropriate activation threshold that can be used to determine whether the endoscope is moving.
ISSN:2197-4225
2197-4225
DOI:10.1186/s40648-016-0042-6