Sliding Mode Control of Real-Time PNU Vehicle Driving Simulator and Its Performance Evaluation
Abstract
This paper introduces an economical and effective full-scale driving simulator for study of human sensibility and development of new vehicle parts and its control. Real-time robust control to accurately reappear a various vehicle motion may be a difficult task because the motion platform is the nonlinear complex system. This study proposes the sliding mode controller with a perturbation compensator using observer-based fuzzy adaptive network (FAN). This control algorithm is designed to solve the chattering problem of a sliding mode control and to select the adequate fuzzy parameters of the perturbation compensator. For evaluating the trajectory control performance of the proposed approach, a tracking control of the developed simulator named PNUVDS is experimentally carried out. And then, the driving performance of the simulator is evaluated by using human perception and sensibility of some drivers in various driving conditions.
- Publication:
-
JSME International Journal Series C
- Pub Date:
- 2003
- DOI:
- Bibcode:
- 2003JSMEC..46..557L
- Keywords:
-
- Vehicle Driving Simulator;
- Sliding Mode Control;
- Fuzzy Adaptive Network;
- Perturbation Compensator