Background:
Wheelchair mounted robotic arm is a typical assistive robot, which is widely
used to help the elders and the disabled to complete the activities of daily life. But limited by the restrictions
of the users’ athletic ability and cognitive ability, how to flexibly manipulate such robot is
still a problem in front of them. The human-computer interaction technology is the core technology of
the robot. Its performance directly affects the user's acceptability, satisfaction and promotion of intelligent
wheelchairs.
Objective:
The study aims to give a general summary of recent human-robot interface of wheelchair
mounted robotic arm and introduce their respective characteristics.
Methods:
Based on various patents and research developments about the human-robot interface of the
assistive robot at home and abroad, this paper puts forward the basic principle of designing the humanrobot
interaction mode, divides the man-robot interface into two categories based on the perspective of
user control robot arm, and describes in detail, the typical human-robot interface and its related characteristics
contained in each classification.
Results:
The development trends of the human-robot interface in future are predicted, so as to provide
some research reference for the related scientific researchers.
Conclusion:
Wheelchair mounted robotic arm has important practical significance. Further improvements
are needed in the design of the human-robot interface. It can effectively improve the operation
performance of the WMRA, and take full advantage of the user’s existing movement ability to meet the
requirement of dominating the control process. Furthermore, these improvements in the human-robot
interface will allow more and more users to accept the WMRA, manipulate the WMRA, and enjoy
improvements in the quality of their life for these assistive robots.
Kinematic performance enhancement of wheelchair-mounted robotic arm by adding a linear drive
