论文信息 - Rear-heavy car control by adaptive linear optimal preview

Rear-heavy car control by adaptive linear optimal preview

Adaptive linear optimal preview control theory is applied to a simple but non-linear car model, with parameters chosen to make the rear axle saturate first in any quasi-steady manoeuvre. The tendency of such a car to spin above a critical speed, which is a function of its running state, causes control to be especially difficult when operating near to the limit of the rear-axle force system. As in previous work, trim states and optimal gains are computed off-line for a given speed and a full range of lateral accelerations. Gain-scheduling with interpolation over trims and gain sets is used to keep the control appropriate to the running conditions, as they change. Simulations of manoeuvres are used to test and demonstrate the system capability. It is shown that utilising the rear-axle lateral-slip ratio as the scheduling variable, in the case of this rear-heavy car, gives excellent tracking, even when the tyres are run close to full saturation. It is implied by this and previous work that the general case can be treated effectively by monitoring both front- and rear-axle slips and scheduling on a worst-case basis.

Simos A. Evangelou | Robin S. Sharp | M. Thommyppillai

[1] Robin S. Sharp. Driver Steering Control and a New Perspective on Car Handling Qualities , 2005 .

[2] Robin S. Sharp. Optimal preview speed-tracking control for motorcycles , 2007 .

[3] Robin S. Sharp. Optimal stabilization and path-following controls for a bicycle , 2007 .

[4] Robin S. Sharp,et al. OPTIMAL CONTROL OF A VEHICLE SUSPENSION INCORPORATING THE TIME DELAY BETWEEN FRONT AND REAR WHEEL INPUTS , 1988 .

[5] Simos A. Evangelou,et al. Car driving at the limit by adaptive linear optimal preview control , 2009 .

[6] Robin S. Sharp. Application of optimal preview control to speed-tracking of road vehicles , 2007 .

[7] Robin S. Sharp. Optimal linear time-invariant preview steering control for motorcycles , 2006 .

[8] R. S. Sharp,et al. Performance enhancement of limited bandwidth active automotive suspensions by road preview , 1994 .

[9] Hans B. Pacejka,et al. Tire and Vehicle Dynamics , 1982 .

[10] Robin S. Sharp,et al. OPTIMAL PREVIEW CAR STEERING CONTROL , 2001 .

[11] Robin S. Sharp,et al. Optimization and Performance Enhancement of Active Suspensions for Automobiles under Preview of the Road , 1992 .

[12] B. Anderson,et al. Optimal control: linear quadratic methods , 1990 .

[13] John C. Dixon,et al. Tires, Suspension and Handling, Second Edition , 1996 .

[14] Andrew Hazell,et al. Discrete-time optimal preview control , 2008 .

[15] Robin S. Sharp,et al. Motorcycle Steering Control by Road Preview , 2007 .