Much of the Human Factors research into vehicle automation has focused on driver responses to critical scenarios where a crash might occur. However, there is less knowledge about the effects of vehicle automation on drivers' behaviour during non-critical take-over situations, such as driver-initiated lane-changing or overtaking. The current driving simulator study, conducted as part of the EC-funded AdaptIVe project, addresses this issue. It uses a within-subjects design to compare drivers' lane-changing behaviour in conventional manual driving, partially automated driving (PAD) and conditionally automated driving (CAD). In PAD, drivers were required to re-take control from an automated driving system in order to overtake a slow moving vehi...
This paper presents a back-to-back performance comparison of lane-change maneuvers using two automat...
AbstractThe purpose of this study is to identify differences in characteristics of drivers’ decision...
The focus of this thesis is to assess how drivers interact with automated driving systems, more spec...
Much of the Human Factors research into vehicle automation has focused on driver responses to critic...
In the current study we investigated if drivers of conditionally automated vehicles can be kept in t...
A review of the literature on autonomous vehicles has shown that they offer several benefits, such a...
This desktop driving simulator study investigated the effect of engagement in a reading task during...
This desktop driving simulator study investigated the effect of engagement in a reading task during ...
Vehicle automation is expected to improve traffic safety. However, previous research indicates that ...
As vehicle automation becomes more capable and prevalent, an understanding of how drivers will inte...
The recent literature concerning autonomous vehicles has demonstrated them to be capable of bringing...
Perception reaction time and mental workload have proven to be crucial in manual driving. Moreover, ...
Nowadays, automated driving is one of the most discussed topic in transportation research community ...
Previous research has indicated that high levels of vehicle automation can result in reduced driver ...
AbstractA driving simulator study was designed to investigate drivers’ ability to resume control fro...
This paper presents a back-to-back performance comparison of lane-change maneuvers using two automat...
AbstractThe purpose of this study is to identify differences in characteristics of drivers’ decision...
The focus of this thesis is to assess how drivers interact with automated driving systems, more spec...
Much of the Human Factors research into vehicle automation has focused on driver responses to critic...
In the current study we investigated if drivers of conditionally automated vehicles can be kept in t...
A review of the literature on autonomous vehicles has shown that they offer several benefits, such a...
This desktop driving simulator study investigated the effect of engagement in a reading task during...
This desktop driving simulator study investigated the effect of engagement in a reading task during ...
Vehicle automation is expected to improve traffic safety. However, previous research indicates that ...
As vehicle automation becomes more capable and prevalent, an understanding of how drivers will inte...
The recent literature concerning autonomous vehicles has demonstrated them to be capable of bringing...
Perception reaction time and mental workload have proven to be crucial in manual driving. Moreover, ...
Nowadays, automated driving is one of the most discussed topic in transportation research community ...
Previous research has indicated that high levels of vehicle automation can result in reduced driver ...
AbstractA driving simulator study was designed to investigate drivers’ ability to resume control fro...
This paper presents a back-to-back performance comparison of lane-change maneuvers using two automat...
AbstractThe purpose of this study is to identify differences in characteristics of drivers’ decision...
The focus of this thesis is to assess how drivers interact with automated driving systems, more spec...