A Real Time Re-Configurable Steering Simulator for System Design Studies

The automotive steering system plays an important role in determining the behavioral dynamics of the operator/vehicle interface. The system's primary function is to transmit the driver commanded steering wheel angle to the road wheels; The secondary function is to provide tire/road interface information back to the driver. The automotive chassis engineer needs a design tool to evaluate the effect of steering parameters on overall vehicle lateral behavior. In this paper, a real time steering simulator will be presented to emulate the behavior of automotive steering systems. The re-configurable steer- by-wire simulator allows for the emulation of steering systems ranging from hydraulic, electric and steer-by- wire in passenger, light duty, and commercial vehicles for pre-production and production models. To validate the simulator's functionality, a case study has been performed with numerical and experimental data. Comparisons between the simulator results and field data demonstrate a high level of correspondence. The re-configurable simulator evaluation tool represents a contribution to the field of automotive design.

[1]  John F. Reid,et al.  HARDWARE-IN-THE-LOOP SIMULATOR OF AN OFF-ROAD VEHICLE ELECTROHYDRAULIC STEERING SYSTEM , 2000 .

[2]  Ossama Mokhiamar,et al.  Experimental verification using a driving simulator of the effect of simultaneous optimal distribution of tyre forces for active vehicle handling control , 2005 .

[3]  Toshitake Kawai,et al.  Improvement in driver-vehicle system performance by varying steering gain with vehicle speed and steering angle-VGS (Variable Gear-Ratio Steering System) , 1999 .

[4]  Peter Dominke,et al.  Future Electrical Steering Systems: Realizations with Safety Requirements , 2000 .

[5]  Shoichi Sano,et al.  Effects of Steering System Characteristics on Control Performance from the Viewpoint of Steer-by-Wire System Design , 1999 .

[6]  John R. Wagner,et al.  Investigation of Operator Feedback in Human-Machine Haptic Interfaces for Steer-by-Wire Transportation Systems , 2004 .

[7]  Bhise,et al.  DRIVER STEERING PERFORMANCE USING JOYSTICK VS. STEERING WHEEL CONTROLS. IN: HUMAN FACTORS IN DRIVING, SEATING AND VISION , 2003 .

[8]  Kenneth D. Norman Objective Evaluation of On-Center Handling Performance , 1984 .

[9]  Paul A. Grygier,et al.  Vehicle dynamics modelling for the National Advanced Driving Simulator , 2002 .

[10]  Nong Zhang,et al.  Dynamic Modeling of Hydraulic Power Steering System with Variable Ratio Rack and Pinion Gear , 2005 .

[11]  E. Harry Law,et al.  Handling Enhancement Due to an Automotive Variable Ratio Electric Power Steering System Using Model Reference Robust Tracking Control , 1996 .

[12]  Dennis A. Guenther,et al.  Vehicle dynamics modeling for the national advanced driving simulator of a 1997 jeep Cherokee , 1999 .

[13]  John R. Wagner,et al.  A hardware-in-the-loop and virtual reality test environment for steer-by-wire system evaluations , 2003, Proceedings of the 2003 American Control Conference, 2003..

[14]  John R. Wagner,et al.  Ground vehicle steering systems: modelling, control, and analysis of hydraulic, electric and steer-by-wire configurations , 2007 .