Autonomous vehicles need to perform social accepted behaviors in complex urban scenarios including human-driven vehicles with uncertain intentions. This leads to many difficult decision-making problems, such as deciding a lane change maneuver and generating policies to pass through intersections. In this paper, we propose an intention-aware decision-making algorithm to solve this challenging problem in an uncontrolled intersection scenario. In order to consider uncertain intentions, we first develop a continuous hidden Markov model to predict both the high-level motion intention (e.g., turn right, turn left, and go straight) and the low level interaction intentions (e.g., yield status for related vehicles). Then a partially observable Marko...
When driving in urban environments, an autonomous vehicle must account for the interaction with othe...
One of the most crucial links to building an autonomous system is the task of decision making. The a...
Traditionally, autonomous cars treat human-driven vehicles like moving obstacles. They predict their...
Autonomous vehicles need to perform social accepted behaviors in complex urban scenarios including h...
Drivers and other road users often encounter situations where priority is unclear or ambiguous, but ...
AbstractHighly automated and fully autonomous vehicles are much more likely to be accepted if they r...
This paper presents an intention-aware online planning approach for autonomous driving amid many ped...
Highly automated and fully autonomous vehicles are much more likely to be accepted if they react in ...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
Abstract — Real-world autonomous driving in city traffic must cope with dynamic environments includi...
Autonomous shuttles have been used as end-mile solutions for smart mobility in smart cities. The urb...
Abstract—To operate reliably in real-world traffic, an au-tonomous car must evaluate the consequence...
The decision-making models that are able to deal with complex and dynamic urban intersections are cr...
This thesis presents a behavior planning algorithm for automated driving in urban environments with ...
Understanding pedestrian behaviour and controlling interactions with pedestrians is of critical impo...
When driving in urban environments, an autonomous vehicle must account for the interaction with othe...
One of the most crucial links to building an autonomous system is the task of decision making. The a...
Traditionally, autonomous cars treat human-driven vehicles like moving obstacles. They predict their...
Autonomous vehicles need to perform social accepted behaviors in complex urban scenarios including h...
Drivers and other road users often encounter situations where priority is unclear or ambiguous, but ...
AbstractHighly automated and fully autonomous vehicles are much more likely to be accepted if they r...
This paper presents an intention-aware online planning approach for autonomous driving amid many ped...
Highly automated and fully autonomous vehicles are much more likely to be accepted if they react in ...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
Abstract — Real-world autonomous driving in city traffic must cope with dynamic environments includi...
Autonomous shuttles have been used as end-mile solutions for smart mobility in smart cities. The urb...
Abstract—To operate reliably in real-world traffic, an au-tonomous car must evaluate the consequence...
The decision-making models that are able to deal with complex and dynamic urban intersections are cr...
This thesis presents a behavior planning algorithm for automated driving in urban environments with ...
Understanding pedestrian behaviour and controlling interactions with pedestrians is of critical impo...
When driving in urban environments, an autonomous vehicle must account for the interaction with othe...
One of the most crucial links to building an autonomous system is the task of decision making. The a...
Traditionally, autonomous cars treat human-driven vehicles like moving obstacles. They predict their...