Autonomous navigation in dense traffic scenarios remains challenging for autonomous vehicles (AVs) because the intentions of other drivers are not directly observable and AVs have to deal with a wide range of driving behaviors. To maneuver through dense traffic, AVs must be able to reason how their actions affect others (interaction model) and exploit this reasoning to navigate through dense traffic safely. This paper presents a novel framework for interaction-aware motion planning in dense traffic scenarios. We explore the connection between human driving behavior and their velocity changes when interacting. Hence, we propose to learn, via deep Reinforcement Learning (RL), an interaction-aware policy providing global guidance about the coo...
Summarization: In this work, the problem of path planning for an autonomous vehicle that moves on a ...
Motion control algorithms in the presence of pedes- trians are critical for the development of safe ...
Traditionally, autonomous cars treat human-driven vehicles like moving obstacles. They predict their...
This dissertation addressed many key problems in autonomous driving towards handling dense, heteroge...
In this paper we treat optimal trajectory planning for an autonomous vehicle (AV) operating in dense...
In many traffic situations there are times where interaction with other drivers is necessary and una...
Understanding the intention of vehicles in the surrounding traffic is crucial for an autonomous vehi...
Motion control algorithms in the presence of pedestrians are critical for the development of safe an...
Autonomous robots will profoundly impact our society, making our roads safer, reducing labor costs a...
Autonomous vehicles technologies have greatly advanced in recent years, with promises of various ben...
The successful integration of autonomous robots in real-world environments strongly depends on their...
Inevitably, autonomous vehicles need to interact with other road participants in a variety of highly...
To be able to understand the dynamic driving environment, an autonomous vehicle needs to predict the...
This paper proposes a model to ensure safe and realistic human-robot interaction for an autonomous v...
Traffic safety and congestion are global concerns. Autonomous vehicles (AVs) are expected to enhance...
Summarization: In this work, the problem of path planning for an autonomous vehicle that moves on a ...
Motion control algorithms in the presence of pedes- trians are critical for the development of safe ...
Traditionally, autonomous cars treat human-driven vehicles like moving obstacles. They predict their...
This dissertation addressed many key problems in autonomous driving towards handling dense, heteroge...
In this paper we treat optimal trajectory planning for an autonomous vehicle (AV) operating in dense...
In many traffic situations there are times where interaction with other drivers is necessary and una...
Understanding the intention of vehicles in the surrounding traffic is crucial for an autonomous vehi...
Motion control algorithms in the presence of pedestrians are critical for the development of safe an...
Autonomous robots will profoundly impact our society, making our roads safer, reducing labor costs a...
Autonomous vehicles technologies have greatly advanced in recent years, with promises of various ben...
The successful integration of autonomous robots in real-world environments strongly depends on their...
Inevitably, autonomous vehicles need to interact with other road participants in a variety of highly...
To be able to understand the dynamic driving environment, an autonomous vehicle needs to predict the...
This paper proposes a model to ensure safe and realistic human-robot interaction for an autonomous v...
Traffic safety and congestion are global concerns. Autonomous vehicles (AVs) are expected to enhance...
Summarization: In this work, the problem of path planning for an autonomous vehicle that moves on a ...
Motion control algorithms in the presence of pedes- trians are critical for the development of safe ...
Traditionally, autonomous cars treat human-driven vehicles like moving obstacles. They predict their...