Application of Grey predictor in controlling 5 DOF power assistant robot

Application of Grey predictor in controlling 5 DOF power assistant robot

Due to their high power output and reliability, robots can replace humans in most modern industrial tasks associated with heavy loads. However, there are some jobs that require both human flexibility and robot power. Consequently, there is a demand to combine the high power of a robot arm with the d...

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Bibliographic Details
Published in:2012 12th International Conference on Control, Automation and Systems pp. 354 - 359
Main Authors: Le Duy Khoa, Kim Cheon, Kyoung Kwan Ahn
Format: Conference Proceeding
Language:English
Published: IEEE 01-10-2012
Subjects:
4D joystick
Actuators
electro hydraulic actuator
grey predictor
Humans
Joints
kinematic analysis
Mathematical model
Power assistant robot
Robot kinematics
Service robots
singular point
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Summary:Due to their high power output and reliability, robots can replace humans in most modern industrial tasks associated with heavy loads. However, there are some jobs that require both human flexibility and robot power. Consequently, there is a demand to combine the high power of a robot arm with the dexterity of a human. In this work, a robot system called the power assistant robot (PAR) is proposed to satisfy this demand. The system can be applied not only in heavy industrial tasks, but also in various fields such as rehabilitation, the military, and security. This research focuses on applying a new type of actuator, called an electro-hydraulic system (EHA), in a power assistant robot. The EHA-PAR includes 5 degrees of freedom (1 passive joint and 4 active joints) and interacts with the user through a 4-dimensional intelligent joystick. By analyzing commands from a human, the human-robot interface distributes reference angles for all active joints. However, in some positions, robot operation is suffered from singularity phenomenon; thus it affect to the control quality. This paper proposes a strategy for this problem by combining the Grey predictor and the conventional kinematic solving method. It can be realized that the performance of the system is ameliorated by applying the proposed method.
ISBN:9781467322478
1467322474