The definition, analysis, and implementation of in-vehicle monitoring systems that collect data which are informative of the status of the joint driver-vehicle system represent a topic of strong interest from both academic players and industrial manufacturers. Many external factors, such as road design, road layout, traffic flow, and weather, can influence and increase driving-related stress, potentially increasing risks. The ubiquitous diffusion of Internet of Things (IoT) technologies allows one to collect heterogeneous data that can build the foundation for driver’s psychophysiological characterization, with the aim of improving safety and security while driving. This chapter evaluates and discusses the feasibility and usefulness of a no...
People spend a significant amount of time daily in the driving seat and some health complexity is po...
Driving is a high-demanding task, related to human capacity, required performance and events occurri...
\u3cp\u3eThis article provides an interdisciplinary perspective on driver monitoring systems by disc...
Driving is a complex task that involves interacting adequately with the vehicle and the environmenta...
Driving is a complex task that involves interacting adequately with the vehicle and the environmenta...
Background: The growth of the number of vehicles in traffic has led to an exponential increase in th...
The modern cars have been equipped with advanced technical features to help make driving faster, saf...
The society of automotive engineers define six levels of automation in vehicles from Level-0 (no aut...
A physiological-based driver monitoring system (DMS) has attracted research interest and has great p...
This paper presents methods for collecting and analyzing physiological data during real world drivin...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
Monitoring the driver’s behavior in the cabin of a vehicle is an urgent task for modern automated dr...
Nonintrusive monitoring of a driver`s physiological signals was introduced and evaluated in a car as...
A system for quantifying the physiological features of emotional stress is being developed for use d...
This paper describes an in-vehicle nonintrusive biopotential measurement system for driver health mo...
People spend a significant amount of time daily in the driving seat and some health complexity is po...
Driving is a high-demanding task, related to human capacity, required performance and events occurri...
\u3cp\u3eThis article provides an interdisciplinary perspective on driver monitoring systems by disc...
Driving is a complex task that involves interacting adequately with the vehicle and the environmenta...
Driving is a complex task that involves interacting adequately with the vehicle and the environmenta...
Background: The growth of the number of vehicles in traffic has led to an exponential increase in th...
The modern cars have been equipped with advanced technical features to help make driving faster, saf...
The society of automotive engineers define six levels of automation in vehicles from Level-0 (no aut...
A physiological-based driver monitoring system (DMS) has attracted research interest and has great p...
This paper presents methods for collecting and analyzing physiological data during real world drivin...
© 2016 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
Monitoring the driver’s behavior in the cabin of a vehicle is an urgent task for modern automated dr...
Nonintrusive monitoring of a driver`s physiological signals was introduced and evaluated in a car as...
A system for quantifying the physiological features of emotional stress is being developed for use d...
This paper describes an in-vehicle nonintrusive biopotential measurement system for driver health mo...
People spend a significant amount of time daily in the driving seat and some health complexity is po...
Driving is a high-demanding task, related to human capacity, required performance and events occurri...
\u3cp\u3eThis article provides an interdisciplinary perspective on driver monitoring systems by disc...