Hisaki Sato, Hiroshi Kobayashi, Kenta Matsumoto, T. Hashimoto, Y. Michiwaki
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引用次数: 0
Abstract
The number of patients with swallowing disorders is increasing according to the aging of society, although swallowing plays a significant role in the dietary process. The process of swallowing includes a very fast reflexive motion; there are difficulties in analyzing its mechanism even with the latest medical imaging technologies. In recent years, a simulator, named “Swallow Vision®,” has been developed from medical images such as MRI and CT to clearly visualize swallowing motion. It enables us to understand the kinesiology and analyze the motion of organs in swallowing. By using kinematic data obtained from this simulator and referring to medical knowledge, we develop a robotic simulator that has the potential to mimic human swallowing motion. The robot is able to perform tongue depressor and pharynx contraction to swallow food bolus. A performance evaluation is conducted to determine whether it is possible to swallow food bolus properly or where the bolus remains when failing.
期刊介绍:
First published in 1989, the Journal of Robotics and Mechatronics (JRM) has the longest publication history in the world in this field, publishing a total of over 2,000 works exclusively on robotics and mechatronics from the first number. The Journal publishes academic papers, development reports, reviews, letters, notes, and discussions. The JRM is a peer-reviewed journal in fields such as robotics, mechatronics, automation, and system integration. Its editorial board includes wellestablished researchers and engineers in the field from the world over. The scope of the journal includes any and all topics on robotics and mechatronics. As a key technology in robotics and mechatronics, it includes actuator design, motion control, sensor design, sensor fusion, sensor networks, robot vision, audition, mechanism design, robot kinematics and dynamics, mobile robot, path planning, navigation, SLAM, robot hand, manipulator, nano/micro robot, humanoid, service and home robots, universal design, middleware, human-robot interaction, human interface, networked robotics, telerobotics, ubiquitous robot, learning, and intelligence. The scope also includes applications of robotics and automation, and system integrations in the fields of manufacturing, construction, underwater, space, agriculture, sustainability, energy conservation, ecology, rescue, hazardous environments, safety and security, dependability, medical, and welfare.
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