Mobility in an effective and socially-compliant manner is an essential yet challenging task for robots operating in crowded spaces. Recent works have shown the power of deep reinforcement learning techniques to learn socially cooperative policies. However, their cooperation ability deteriorates as the crowd grows since they typically relax the problem as a one-way Human-Robot interaction problem. In this work, we want to go beyond first-order Human-Robot interaction and more explicitly model Crowd-Robot Interaction (CRI). We propose to (i) rethink pairwise interactions with a self-attention mechanism, and (ii) jointly model Human-Robot as well as Human-Human interactions in the deep reinforcement learning framework. Our model captures the H...
Social interacting is a complex task for which machine learning holds particular promise. However, a...
Crowded human environments such as pedestrian scenes constitute challenging domains for mobile robot...
Navigating safely and efficiently in dense crowds remains a challenging problem for mobile robots. T...
We study the problem of safe and intention-aware robot navigation in dense and interactive crowds. M...
We consider the problem of navigating a mobile robot through dense human crowds. We begin by explori...
We consider mobile robot navigation in dense human crowds. In particular, we explore two questions. ...
Efficient navigation in a socially compliant manner is an important and challenging task for robots ...
© 2013 IEEE. Collision avoidance algorithms are essential for safe and efficient robot operation amo...
International audience— For mobile robots which operate in human pop-ulated environments, modeling s...
Autonomous navigation in crowded spaces poses a challenge for mobile robots due to the highly dynami...
Robots moving in a crowd occasionally reach situations where they need to decide whether to give way...
Child-robot interactions are increasingly being explored in domains which require longer-term applic...
Human-Robot/Agent Interaction is well researched in many areas, but approaches commonly either focus...
International audienceSimulating crowds with realistic behaviors is a difficult but very important t...
Simulating crowds with realistic behaviors is a difficult but very important task for a variety of a...
Social interacting is a complex task for which machine learning holds particular promise. However, a...
Crowded human environments such as pedestrian scenes constitute challenging domains for mobile robot...
Navigating safely and efficiently in dense crowds remains a challenging problem for mobile robots. T...
We study the problem of safe and intention-aware robot navigation in dense and interactive crowds. M...
We consider the problem of navigating a mobile robot through dense human crowds. We begin by explori...
We consider mobile robot navigation in dense human crowds. In particular, we explore two questions. ...
Efficient navigation in a socially compliant manner is an important and challenging task for robots ...
© 2013 IEEE. Collision avoidance algorithms are essential for safe and efficient robot operation amo...
International audience— For mobile robots which operate in human pop-ulated environments, modeling s...
Autonomous navigation in crowded spaces poses a challenge for mobile robots due to the highly dynami...
Robots moving in a crowd occasionally reach situations where they need to decide whether to give way...
Child-robot interactions are increasingly being explored in domains which require longer-term applic...
Human-Robot/Agent Interaction is well researched in many areas, but approaches commonly either focus...
International audienceSimulating crowds with realistic behaviors is a difficult but very important t...
Simulating crowds with realistic behaviors is a difficult but very important task for a variety of a...
Social interacting is a complex task for which machine learning holds particular promise. However, a...
Crowded human environments such as pedestrian scenes constitute challenging domains for mobile robot...
Navigating safely and efficiently in dense crowds remains a challenging problem for mobile robots. T...