Development of a controller to perform an automatic collision avoidance manoeuvre for a passenger car

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Original languageEnglish
Title of host publicationProceedings of the HyCON/CEmACS conference on automotive systems and control
Place of PublicationLund, Sweden
StatePublished - Jun 2006

Conference

ConferenceHYCON-CEmACS Workshop on Automotive Applications of Hybrid Systems
CountrySweden
CityLund
Dates1/06/062/06/06

Abstract

An automatic controller is being developed to cause a passenger car to perform
a lateral emergency collision avoidance manoeuvre: a single lane change at high
speed, while operating at the vehicle’s physical limits.
The car is stabilised about a predetermined velocity profile by a feedforward
steering action based on the Ackermann steering angle, combined with a feedback control loop which uses the anti-lock braking system to apply differential torques to each of the wheels. The forces to be applied to each wheel are calculated using the pseudo-inverse of a velocity-based linearisation of a system model.
This inverse controller acts upon a signal containing the lateral and yaw velocity
error, fed back through a scheduled gain matrix; the matrix, obtained by pole
placement and scheduled according to the vehicle state, causes the car to exhibit uniform dynamic behaviour as its speed increases.
An additional control loop augments the steering angle of the front wheels,
using actuators which form part of a steer-by-wire system, to correct for errors
in the lateral position and heading angle for which the force/velocity control loop does not account.
The control system is evaluated in simulation experiments which show that
the performance requirements are met over a wide range of velocities

Keywords

  • controller, automatic collision avoidance manoeuvers, car