This paper proposes a new haptic shared control concept between the human driver and the automation for lane keeping in semi-autonomous vehicles. Based on the principle of human-machine interaction during lane keeping, the level of cooperativeness for completion of driving task is introduced. Using the proposed human-machine cooperative status along with the driver workload, the required level of haptic authority is determined according to the driver's performance characteristics. Then, a time-varying assistance factor is developed to modulate the assistance torque, which is designed from an integrated driver-in-the-loop vehicle model taking into account the yaw-slip dynamics, the steering dynamics, and the human driver dynamics. To deal wi...
Shared control is a promising approach that can facilitate the mutual understanding and cooperative ...
The arrival of highly automated vehicles introduces a new interaction between the vehicle and driver...
International audienceThis paper addresses the shared lateral control for both lane-keeping and obst...
This paper proposes a new haptic shared control concept between the human driver and the automation ...
The work presented in the thesis is part of the research partnership project ANR-ABV 2009 which aims...
International audienceThis study investigated human-machine cooperation when driving with different ...
Automation systems that regard humans as the final authority have been found to be efficient and are...
Abstract—This paper presents an advanced driver assistance system (ADAS) for lane keeping, together ...
Semi-autonomous driving can leverage the benefits of self-driving vehicle technologies today, even i...
Automated and Highly-automated Vehicles still need to interact with the driver at different cognitiv...
Traditional driver-automation interaction trades control over the vehicle back and forth between dri...
International audienceHaptic shared control is a consistent way to design an assistance for the late...
International audienceThis paper presents an advanced driver assistance system (ADAS) for lane keepi...
The advent of Automated Vehicles (AVs) holds promise as an efficient and safer alternative to manual...
Advanced Driver Assistance Systems (ADAS) aim to increase safety and reduce mental workload. However...
Shared control is a promising approach that can facilitate the mutual understanding and cooperative ...
The arrival of highly automated vehicles introduces a new interaction between the vehicle and driver...
International audienceThis paper addresses the shared lateral control for both lane-keeping and obst...
This paper proposes a new haptic shared control concept between the human driver and the automation ...
The work presented in the thesis is part of the research partnership project ANR-ABV 2009 which aims...
International audienceThis study investigated human-machine cooperation when driving with different ...
Automation systems that regard humans as the final authority have been found to be efficient and are...
Abstract—This paper presents an advanced driver assistance system (ADAS) for lane keeping, together ...
Semi-autonomous driving can leverage the benefits of self-driving vehicle technologies today, even i...
Automated and Highly-automated Vehicles still need to interact with the driver at different cognitiv...
Traditional driver-automation interaction trades control over the vehicle back and forth between dri...
International audienceHaptic shared control is a consistent way to design an assistance for the late...
International audienceThis paper presents an advanced driver assistance system (ADAS) for lane keepi...
The advent of Automated Vehicles (AVs) holds promise as an efficient and safer alternative to manual...
Advanced Driver Assistance Systems (ADAS) aim to increase safety and reduce mental workload. However...
Shared control is a promising approach that can facilitate the mutual understanding and cooperative ...
The arrival of highly automated vehicles introduces a new interaction between the vehicle and driver...
International audienceThis paper addresses the shared lateral control for both lane-keeping and obst...