The automotive industry is rapidly developing driving automation systems (DAS) with the aim of supporting drivers through automation of longitudinal and lateral vehicle control. As vehicle complexity increases, drivers’ understanding of their responsibility and their vehicles’ capabilities and limitations becomes significantly more important. In order to motivate manufacturers to adopt a human-centric perspective for the development of driving automation systems, the factors influencing the driver’s perception during usage of such systems have to be understood. Therefore, the aim of this thesis is to contribute to the understanding of factors influencing user perception and understanding of driving automation systems in order to guide futur...
As motor vehicle automation increases, frequent transitions of control between automation and driver...
AbstractTechnical progress enables the development of automated driving functions and the companies ...
Extant levels of automation (LoAs) taxonomies describe variations in function allocations between th...
While there is significant potential for driving automation to increase traffic safety and enhance c...
Vehicle automation can make driving safer; it can compensate for human impairments that are recogniz...
This paper presents results from a study conducted for the European FP6 project CityMobil. The exper...
Taking a human factors approach, the present study aims at improving driver interaction with automat...
This paper considers psychological variables pertinent to driver automation. It is anticipated that ...
Advances in vehicle-based technology are currently progressing at an ever- increasing rate and innov...
Achieving optimal performance in human-machine systems, such as highly automated vehicles, relies, i...
While there is significant potential for driving automation to increase traffic safety and enhance c...
As vehicle automation becomes more capable and prevalent, an understanding of how drivers will inte...
Fully automated drive still lies far ahead in the future. Therefore, vehicles with multiple modes of...
This paper outlines the results of a driving simulator study conducted for the European CityMobil pr...
Users’ acceptance, and subsequent adoption, of automated vehicles is likely affected by the understa...
As motor vehicle automation increases, frequent transitions of control between automation and driver...
AbstractTechnical progress enables the development of automated driving functions and the companies ...
Extant levels of automation (LoAs) taxonomies describe variations in function allocations between th...
While there is significant potential for driving automation to increase traffic safety and enhance c...
Vehicle automation can make driving safer; it can compensate for human impairments that are recogniz...
This paper presents results from a study conducted for the European FP6 project CityMobil. The exper...
Taking a human factors approach, the present study aims at improving driver interaction with automat...
This paper considers psychological variables pertinent to driver automation. It is anticipated that ...
Advances in vehicle-based technology are currently progressing at an ever- increasing rate and innov...
Achieving optimal performance in human-machine systems, such as highly automated vehicles, relies, i...
While there is significant potential for driving automation to increase traffic safety and enhance c...
As vehicle automation becomes more capable and prevalent, an understanding of how drivers will inte...
Fully automated drive still lies far ahead in the future. Therefore, vehicles with multiple modes of...
This paper outlines the results of a driving simulator study conducted for the European CityMobil pr...
Users’ acceptance, and subsequent adoption, of automated vehicles is likely affected by the understa...
As motor vehicle automation increases, frequent transitions of control between automation and driver...
AbstractTechnical progress enables the development of automated driving functions and the companies ...
Extant levels of automation (LoAs) taxonomies describe variations in function allocations between th...