We consider mobile robot navigation in dense human crowds. In particular, we explore two questions. Can we design a navigation algorithm that encourages humans to cooperate with a robot? Would such cooperation improve navigation performance? We address the first question by developing a probabilistic predictive model of cooperative collision avoidance and goal-oriented behavior by extending the interacting Gaussian processes approach to include multiple goals and stochastic movement duration. We answer the second question with an extensive quantitative study of robot navigation in dense human crowds (488 runs completed), specifically testing how cooperation models effect navigation performance. We find that the “multiple goal” interacting G...
Robots moving in a crowd occasionally reach situations where they need to decide whether to give way...
This work deals with the problem of navigating a robot in a constrained human-like environment. We p...
In this paper we are considering an autonomous robot moving purposefully in a crowd of people (a mar...
We consider the problem of navigating a mobile robot through dense human crowds. We begin by explori...
Autonomous navigation in highly populated areas remains a challenging task for robots because of the...
Abstract — The vision-based mechanisms that pedestrians in social groups use to navigate in dynamic ...
Mobility in an effective and socially-compliant manner is an essential yet challenging task for robo...
As mobile robots start operating in environments crowded with humans, human-aware navigation is requ...
International audienceWe claim that navigation in human environments can be viewed as cooperative ac...
Autonomous navigation in highly populated areas remains a challenging task for robots because of the...
This thesis presents a novel path planning algorithm for robotic crowd navigation through a pedestri...
International audienceNavigating in complex and highly dynamic environments such as crowds is still ...
Recent developments in mobile robotics made feasible the near future scenario of mobile robots assis...
Abstract — Nowadays, robots often operate in environments that they share with humans. The ability t...
Crowded human environments such as pedestrian scenes constitute challenging domains for mobile robot...
Robots moving in a crowd occasionally reach situations where they need to decide whether to give way...
This work deals with the problem of navigating a robot in a constrained human-like environment. We p...
In this paper we are considering an autonomous robot moving purposefully in a crowd of people (a mar...
We consider the problem of navigating a mobile robot through dense human crowds. We begin by explori...
Autonomous navigation in highly populated areas remains a challenging task for robots because of the...
Abstract — The vision-based mechanisms that pedestrians in social groups use to navigate in dynamic ...
Mobility in an effective and socially-compliant manner is an essential yet challenging task for robo...
As mobile robots start operating in environments crowded with humans, human-aware navigation is requ...
International audienceWe claim that navigation in human environments can be viewed as cooperative ac...
Autonomous navigation in highly populated areas remains a challenging task for robots because of the...
This thesis presents a novel path planning algorithm for robotic crowd navigation through a pedestri...
International audienceNavigating in complex and highly dynamic environments such as crowds is still ...
Recent developments in mobile robotics made feasible the near future scenario of mobile robots assis...
Abstract — Nowadays, robots often operate in environments that they share with humans. The ability t...
Crowded human environments such as pedestrian scenes constitute challenging domains for mobile robot...
Robots moving in a crowd occasionally reach situations where they need to decide whether to give way...
This work deals with the problem of navigating a robot in a constrained human-like environment. We p...
In this paper we are considering an autonomous robot moving purposefully in a crowd of people (a mar...