A system for quantifying the physiological features of emotional stress is being developed for use during a driving task. Two prototypes, using sensors that measure the driver's skin conductance, respiration, muscle activity, and heart activity are presented. The first system allows sampling rates of 200Hz on two fast channels and 20Hz on six additional channels. It uses a wearable computer to do real-time processing on the signals and has an attached digital camera which was used to capture images of the driver's facial expression once every minute. The second system uses a car-based computer that allows a sampling rate of 1984 samples per second on eight channels. This system uses multiple video cameras to continuously capture t...
Driving is one of the most dangerous tasks in our everyday lives. Statistics show that over the past...
Driving while fatigued is dangerous and may result in car accidents. Moreover, adding technology to ...
The ability to measure drivers’ physiological responses is important for understanding their state a...
This paper presents methods for collecting and analyzing physiological data during real world drivin...
International audienceThis study presents a real-life application-based feature and sensor relevance...
Earth-moving vehicles (EMVs) are vital in numerous industries, including construction, forestry, min...
This paper describes an in-vehicle nonintrusive biopotential measurement system for driver health mo...
The advancement of in-vehicle technology for driving safety has considerably improved. Current Advan...
The modern cars have been equipped with advanced technical features to help make driving faster, saf...
Driving stress can impact the driving performance that has an impact on the overall driving experien...
Various functions for improving automobile seat comfort have been developed to reduce driver stress....
In this paper, we propose a relatively noninvasive system that can automatically assess the impact o...
The society of automotive engineers define six levels of automation in vehicles from Level-0 (no aut...
The presented study concentrates on the collection of emotional multimodal real-world in-car audio, ...
Driving a vehicle involves a series of events, which are related to and evolve with the mental state...
Driving is one of the most dangerous tasks in our everyday lives. Statistics show that over the past...
Driving while fatigued is dangerous and may result in car accidents. Moreover, adding technology to ...
The ability to measure drivers’ physiological responses is important for understanding their state a...
This paper presents methods for collecting and analyzing physiological data during real world drivin...
International audienceThis study presents a real-life application-based feature and sensor relevance...
Earth-moving vehicles (EMVs) are vital in numerous industries, including construction, forestry, min...
This paper describes an in-vehicle nonintrusive biopotential measurement system for driver health mo...
The advancement of in-vehicle technology for driving safety has considerably improved. Current Advan...
The modern cars have been equipped with advanced technical features to help make driving faster, saf...
Driving stress can impact the driving performance that has an impact on the overall driving experien...
Various functions for improving automobile seat comfort have been developed to reduce driver stress....
In this paper, we propose a relatively noninvasive system that can automatically assess the impact o...
The society of automotive engineers define six levels of automation in vehicles from Level-0 (no aut...
The presented study concentrates on the collection of emotional multimodal real-world in-car audio, ...
Driving a vehicle involves a series of events, which are related to and evolve with the mental state...
Driving is one of the most dangerous tasks in our everyday lives. Statistics show that over the past...
Driving while fatigued is dangerous and may result in car accidents. Moreover, adding technology to ...
The ability to measure drivers’ physiological responses is important for understanding their state a...