Add to ORKGThe compensatory (feedback) component of a human driver's steering control is examined. In particular, the effect of the cognitive process is studied. Model predictive control theory is used to implement models of intermittency in cognitive processing. Experiments using a fixed-base driving simulator with periodic occlusion of the visual display are used to reveal the nature of the driver's steering behaviour. An intermittent serial-ballistic control strategy is found to match the measured behaviour better than intermittent zero-order hold or continuous control. The findings may enable some insight to driver-vehicle interaction and vehicle handling qualities
A novel model of driver steering control is proposed, incorporating models of the driver’s sensory d...
With the increasing need to reduce time and cost of vehicle development there is increasing advantag...
Most existing models of driver steering control do not consider the driver's sensory dynamics, despi...
The compensatory (feedback) component of a human driver's steering control is examined. In particul...
In previous work a linear model of driver steering control was developed which takes account of huma...
In previous work a linear model of driver steering control was developed which takes account of huma...
We present a computational model of intermittent visual sampling and locomotor control in a simple y...
We present a computational model of intermittent visual sampling and locomotor control in a simple y...
We present a computational model of intermittent visual sampling and locomotor control in a simple y...
We present a computational model of intermittent visual sampling and locomotor control in a simple y...
Criteria for stability and controllability of road vehicles are briefly reviewed and it is argued th...
Drivers rely on a variety of cues from different modalities while steering, but which exact cues are...
Criteria for stability and controllability of road vehicles are briefly reviewed and it is argued th...
Following well established feedback con-trol design principles, a control theoretic model of driver ...
Drivers rely on a variety of cues from different modalities while steering, but which exact cues are...
A novel model of driver steering control is proposed, incorporating models of the driver’s sensory d...
With the increasing need to reduce time and cost of vehicle development there is increasing advantag...
Most existing models of driver steering control do not consider the driver's sensory dynamics, despi...
The compensatory (feedback) component of a human driver's steering control is examined. In particul...
In previous work a linear model of driver steering control was developed which takes account of huma...
In previous work a linear model of driver steering control was developed which takes account of huma...
We present a computational model of intermittent visual sampling and locomotor control in a simple y...
We present a computational model of intermittent visual sampling and locomotor control in a simple y...
We present a computational model of intermittent visual sampling and locomotor control in a simple y...
We present a computational model of intermittent visual sampling and locomotor control in a simple y...
Criteria for stability and controllability of road vehicles are briefly reviewed and it is argued th...
Drivers rely on a variety of cues from different modalities while steering, but which exact cues are...
Criteria for stability and controllability of road vehicles are briefly reviewed and it is argued th...
Following well established feedback con-trol design principles, a control theoretic model of driver ...
Drivers rely on a variety of cues from different modalities while steering, but which exact cues are...
A novel model of driver steering control is proposed, incorporating models of the driver’s sensory d...
With the increasing need to reduce time and cost of vehicle development there is increasing advantag...
Most existing models of driver steering control do not consider the driver's sensory dynamics, despi...