\u3cp\u3eRecent technological developments have shown a transition from informative driving support systems to more automated vehicles. Although automated vehicles are designed to overcome limitations in human perception, decision making and response, there may be a downside to introducing these technologies. The downside is based on the new cooperation between the driver and the vehicle, leaving room for misinterpretation, overreliance on system performance and loss of situation awareness in case of requested transfer of control from the automated vehicle back to the driver. This article raises several human factors issues that are of importance when designing (semi-)automated vehicles, such as: the driver as a system monitor, situation aw...
Although road infrastructure has been designed to accommodate human drivers’ physiology and psycholo...
\u3cp\u3eCars that include combinations of automated functions, such as Adaptive Cruise Control (ACC...
By taking over parts of the driving task, automated vehicles are expected to contribute to increase ...
Recent technological developments have shown a transition from informative driving support systems t...
Recent technological developments have shown a transition from informative driving support systems t...
Recent research on automated vehicle technologies points to the need to consider drivers\u27 interac...
\u3cp\u3eAutomated driving can fundamentally change road transportation and improve quality of life....
Automated driving can fundamentally change road transportation and improve quality of life. However,...
Automated driving can fundamentally change road transportation and improve quality of life. However,...
The automotive industry has recently made first steps towards implementation of automated driving, b...
Objective: this special section brings together diverse research regarding driver interaction with a...
Given the move toward driverless cars, which includes the more short-term goal of driving assistance...
In the last decades, advanced driver-assistance systems have contributed to improved road safety. Wi...
\u3cp\u3eDifferent components of automated vehicles are being made available commercially as we spea...
Although road infrastructure has been designed to accommodate human drivers’ physiology and psycholo...
\u3cp\u3eCars that include combinations of automated functions, such as Adaptive Cruise Control (ACC...
By taking over parts of the driving task, automated vehicles are expected to contribute to increase ...
Recent technological developments have shown a transition from informative driving support systems t...
Recent technological developments have shown a transition from informative driving support systems t...
Recent research on automated vehicle technologies points to the need to consider drivers\u27 interac...
\u3cp\u3eAutomated driving can fundamentally change road transportation and improve quality of life....
Automated driving can fundamentally change road transportation and improve quality of life. However,...
Automated driving can fundamentally change road transportation and improve quality of life. However,...
The automotive industry has recently made first steps towards implementation of automated driving, b...
Objective: this special section brings together diverse research regarding driver interaction with a...
Given the move toward driverless cars, which includes the more short-term goal of driving assistance...
In the last decades, advanced driver-assistance systems have contributed to improved road safety. Wi...
\u3cp\u3eDifferent components of automated vehicles are being made available commercially as we spea...
Although road infrastructure has been designed to accommodate human drivers’ physiology and psycholo...
\u3cp\u3eCars that include combinations of automated functions, such as Adaptive Cruise Control (ACC...
By taking over parts of the driving task, automated vehicles are expected to contribute to increase ...