In this study, we investigated if the driver’s ability to take over vehicle control when being engaged in a secondary task (Surrogate Reference Task) can be predicted by a subject’s multitasking ability and reaction time. 23 participants performed a multitasking test and a simple response task and then drove for about 38 min highly automated on a highway and encountered five take-over situations. Data analysis revealed significant correlations between the multitasking performance and take-over time as well as gaze distributions for Situations 1 and 2, even when reaction time was controlled. This correlation diminished beginning with Situation 3, but a stable difference between the worst multitaskers and the best multitaskers persisted. Reac...
Level 3 autonomous vehicles require conditional autonomous driving in which autonomous and manual dr...
As vehicle automation becomes more capable and prevalent, an understanding of how drivers will inte...
The article presents a cross-cultural study of take-over performance in highly automated driving. As...
In this study, we investigated if the driver’s ability to take over vehicle control when being engag...
An important question in automated driving research is how quickly drivers take over control of the ...
In conditionally automated driving, drivers should be free to engage in non-driving-related tasks un...
Background Automated driving will be of high value in the future. While in partial-automated drivin...
In the last decade a great variety of electronic systems have been developed which relieve the drive...
With the introduction of advanced driving assistance systems managing longitudinal and lateral contr...
Objective: the aim of this study was to review existing research into driver control transitions and...
Perception reaction time and mental workload have proven to be crucial in manual driving. Moreover, ...
Vehicle automation is expected to improve traffic safety. However, previous research indicates that ...
International audienceWe investigated the impact of automated driving phases of different durations ...
Conditionally automated driving systems may soon be available on the market. Even though these syste...
Automated platooning of trucks is getting increasing interest for its potentially beneficial effects...
Level 3 autonomous vehicles require conditional autonomous driving in which autonomous and manual dr...
As vehicle automation becomes more capable and prevalent, an understanding of how drivers will inte...
The article presents a cross-cultural study of take-over performance in highly automated driving. As...
In this study, we investigated if the driver’s ability to take over vehicle control when being engag...
An important question in automated driving research is how quickly drivers take over control of the ...
In conditionally automated driving, drivers should be free to engage in non-driving-related tasks un...
Background Automated driving will be of high value in the future. While in partial-automated drivin...
In the last decade a great variety of electronic systems have been developed which relieve the drive...
With the introduction of advanced driving assistance systems managing longitudinal and lateral contr...
Objective: the aim of this study was to review existing research into driver control transitions and...
Perception reaction time and mental workload have proven to be crucial in manual driving. Moreover, ...
Vehicle automation is expected to improve traffic safety. However, previous research indicates that ...
International audienceWe investigated the impact of automated driving phases of different durations ...
Conditionally automated driving systems may soon be available on the market. Even though these syste...
Automated platooning of trucks is getting increasing interest for its potentially beneficial effects...
Level 3 autonomous vehicles require conditional autonomous driving in which autonomous and manual dr...
As vehicle automation becomes more capable and prevalent, an understanding of how drivers will inte...
The article presents a cross-cultural study of take-over performance in highly automated driving. As...