Intelligent Robust Control Design of a Precise Positioning System

This paper addresses an intelligent uncertainty function to improve the robust stability and performance of Hr,, controlled system in terms of reduced conservatism. The system is identified, output performance and control signal requirements are controlled by proper selection of performance and control weighting functions. Adaptive Neuro Fuzzy Inference System (ANFIS) learns the uncertainty bounds of model uncertainty that results from unmodeled dynamics and parameter variations, then the developed uncertainty weighting function will be included in the synthesis of the H-infinity controller, v-gap measure is utilized to validate the intelligent identified uncertainty bounds and measure the stability of the designed H-infinity controlled system as well. Experimental results on a servo motion system reveal the advantages of combining intelligent uncertainty identification and robust control. Improved performance is achieved. The proposed approach also allows for iterative experiment design.