Title :
Longitudinal control of automated CHVs with significant actuator delays
Author :
Yanakiev, Diana ; Kanellakopoulos, Ioannis
Author_Institution :
Ford Res. Lab., Dearborn, MI, USA
fDate :
9/1/2001 12:00:00 AM
Abstract :
One of the most critical obstacles in the automated operation of commercial heavy vehicles (CHVs) is the presence of significant delays in the fuel and brake actuators. These delays are especially important in longitudinal control of vehicle platoons that do not employ intervehicle communication, because their effect becomes cumulative as it propagates upstream, resulting in considerably degraded performance. Our objective in this paper is to design autonomous controllers which, in the presence of large delays, recover the good performance achieved when the delays are negligible. We propose two different approaches which are tailored to different performance requirements and computational resources. A backstepping-based nonlinear scheme with prediction almost recovers the original “delay-free” performance at the cost of additional controller complexity, while a simpler PID-based nonlinear scheme yields nearly as good performance
Keywords :
actuators; automated highways; control system synthesis; road traffic; three-term control; PID-based nonlinear scheme; actuator delays; automated operation; autonomous controllers design; backstepping-based nonlinear scheme; brake actuators; commercial heavy vehicles; controller complexity; fuel actuators; longitudinal control; vehicle platoons; Actuators; Automated highways; Automatic control; Automation; Communication system control; Delay; Mobile robots; Remotely operated vehicles; Road safety; Vehicle safety;
Journal_Title :
Vehicular Technology, IEEE Transactions on
