Title :
The control algorithm for compliant robotic tasks based on neuro-genetic approach
Author_Institution :
Robotics Lab., Mihailo Pupin Inst., Belgrade
Abstract :
In this paper, a systematic connectionist controller design approach is proposed to guarantee stability and desired performance of the robotic system for compliant tasks by effectively combining genetic algorithms (GA) with neural classification and neural learning control techniques. The effectiveness of the approach is shown by using a simple and efficient decimal and binary GA optimization procedures to tune and optimize the performance of a neural classifier and controller, together with tuning of feedback controller. In order to demonstrate the effectiveness of the proposed GA approach, some compliant motion simulation experiments with robotic arm placed in contact with dynamic environment have been performed
Keywords :
compliance control; genetic algorithms; neurocontrollers; optimal control; robots; stability; GA; compliant motion simulation; compliant robotic tasks; compliant tasks; control algorithm; feedback controller tuning; genetic algorithms; guaranteed stability; neural classification; neural classifier; neural learning control techniques; neuro-genetic approach; robotic arm; robotic system; systematic connectionist controller design; Control systems; Error correction; Force control; Genetics; Jacobian matrices; Motion control; Neural networks; Robot kinematics; Stability; Uncertainty;
Conference_Titel :
Neural Network Applications in Electrical Engineering, 2000. NEUREL 2000. Proceedings of the 5th Seminar on
Conference_Location :
Belgrade
Print_ISBN :
0-7803-5512-1
DOI :
10.1109/NEUREL.2000.902406
