The number of trucks that are equipped with driver assistance systems is increasing. These driver assistance systems typically offer binary auditory warnings or notifications upon lane departure, close headway, or automation (de)activation. Such binary sounds may annoy the driver if presented frequently. Truck drivers are well accustomed to the sound of the engine and wind in the cabin. Based on the premise that continuous sounds are more natural than binary warnings, we propose continuous auditory feedback on the status of adaptive cruise control, lane offset, and headway, which blends with the engine and wind sounds that are already present in the cabin. An on-road study with 23 truck drivers was performed, where participants were present...
Previous research has shown that urgent auditory warnings are likely to annoy drivers. Increased urg...
With semiautonomous vehicles and innovative assistance systems flooding the market, the characterist...
A Lane Departure Warning Systems (LDWS) is an automation system that can be integrated in vehicles. ...
Automated driving may be a key to solving a number of problems that humanity faces today: large numb...
Auditory feedback produced by driver assistance systems can benefit safety. However, auditory feedba...
In semi-automated vehicles, non-speech sounds have been prevalently used as auditory displays for co...
Auditory icons have the potential to enhance a driver’s situation awareness, to reduce his or her vi...
In-vehicle information systems (IVIS) may contribute to increased levels of cognitive workload, whic...
Auditory icons have the potential to enhance a driver’s situation awareness, to reduce his or her v...
A range of In-Vehicle Information Systems are currently developed and implemented in trucks to warn ...
Auditory signals have proven useful to guide and inform drivers in dangerous situations. Sounds can ...
With the field of automated vehicles rapidly growing comes the question of how we communicate to a d...
A Lane Departure Warning (LDW) system for trucks was developed and evaluated in an iterative design ...
Based on four studies, this thesis aims to explore how to design auditory warning signals that can f...
Previous research has shown that urgent auditory warnings are likely to annoy drivers. Increased urg...
With semiautonomous vehicles and innovative assistance systems flooding the market, the characterist...
A Lane Departure Warning Systems (LDWS) is an automation system that can be integrated in vehicles. ...
Automated driving may be a key to solving a number of problems that humanity faces today: large numb...
Auditory feedback produced by driver assistance systems can benefit safety. However, auditory feedba...
In semi-automated vehicles, non-speech sounds have been prevalently used as auditory displays for co...
Auditory icons have the potential to enhance a driver’s situation awareness, to reduce his or her vi...
In-vehicle information systems (IVIS) may contribute to increased levels of cognitive workload, whic...
Auditory icons have the potential to enhance a driver’s situation awareness, to reduce his or her v...
A range of In-Vehicle Information Systems are currently developed and implemented in trucks to warn ...
Auditory signals have proven useful to guide and inform drivers in dangerous situations. Sounds can ...
With the field of automated vehicles rapidly growing comes the question of how we communicate to a d...
A Lane Departure Warning (LDW) system for trucks was developed and evaluated in an iterative design ...
Based on four studies, this thesis aims to explore how to design auditory warning signals that can f...
Previous research has shown that urgent auditory warnings are likely to annoy drivers. Increased urg...
With semiautonomous vehicles and innovative assistance systems flooding the market, the characterist...
A Lane Departure Warning Systems (LDWS) is an automation system that can be integrated in vehicles. ...