AbstractHighly automated and fully autonomous vehicles are much more likely to be accepted if they react in the same way as human drivers do, especially in a hybrid traffic situation, which allows autonomous vehicles and human-driven vehicles to share the same road. This paper proposes a human-like motion planning model to represent how human drivers assess environments and operate vehicles in signalized intersections. The developed model consists of a pedestrian intention detection model, gap detection model, and vehicle control model. These three submodels are individually responsible for situation assessment, decision making, and action, and also depend on each other in the process of motion planning. In addition, these submodels are con...
Driving is a very challenging task to automatize despite how naturally and efficiently it may come t...
One of the major challenges for autonomous vehicles (AVs) is how to drive in shared pedestrian envir...
This study aims at modelling drivers’ speed in car-following during braking situations at intersecti...
Highly automated and fully autonomous vehicles are much more likely to be accepted if they react in ...
AbstractHighly automated and fully autonomous vehicles are much more likely to be accepted if they r...
Autonomous vehicles need to perform social accepted behaviors in complex urban scenarios including h...
Autonomous vehicles (AVs) must share space with pedestrians, both in carriageway cases such as cars ...
The Publisher's final version can be found by following the DOI link.Autonomous vehicles (AVs) must ...
With the continuous advancement of automated vehicles (AVs), there is growing concern about how AVs ...
Autonomous vehicles (AVs) must share space with human pedestrians, both in on-road cases such as car...
© The Institution of Engineering and Technology 2020. Classical artificial potential approach of mot...
The appearance of autonomous vehicles (AVs) has become a crucial and ever more emerging topic, givin...
Many models account for the traffic flow of road users, but few take the details of local interactio...
International audienceThis paper addresses modeling and simulating pedestrian trajectories when inte...
Autonomous vehicles (AVs) must share space with pedestrians, both in carriageway cases such as cars ...
Driving is a very challenging task to automatize despite how naturally and efficiently it may come t...
One of the major challenges for autonomous vehicles (AVs) is how to drive in shared pedestrian envir...
This study aims at modelling drivers’ speed in car-following during braking situations at intersecti...
Highly automated and fully autonomous vehicles are much more likely to be accepted if they react in ...
AbstractHighly automated and fully autonomous vehicles are much more likely to be accepted if they r...
Autonomous vehicles need to perform social accepted behaviors in complex urban scenarios including h...
Autonomous vehicles (AVs) must share space with pedestrians, both in carriageway cases such as cars ...
The Publisher's final version can be found by following the DOI link.Autonomous vehicles (AVs) must ...
With the continuous advancement of automated vehicles (AVs), there is growing concern about how AVs ...
Autonomous vehicles (AVs) must share space with human pedestrians, both in on-road cases such as car...
© The Institution of Engineering and Technology 2020. Classical artificial potential approach of mot...
The appearance of autonomous vehicles (AVs) has become a crucial and ever more emerging topic, givin...
Many models account for the traffic flow of road users, but few take the details of local interactio...
International audienceThis paper addresses modeling and simulating pedestrian trajectories when inte...
Autonomous vehicles (AVs) must share space with pedestrians, both in carriageway cases such as cars ...
Driving is a very challenging task to automatize despite how naturally and efficiently it may come t...
One of the major challenges for autonomous vehicles (AVs) is how to drive in shared pedestrian envir...
This study aims at modelling drivers’ speed in car-following during braking situations at intersecti...