International audienceNavigating in complex and highly dynamic environments such as crowds is still a major challenge for autonomous vehicle such as autonomous wheelchairs or even autonomous cars. This article presents a new way of navigating in crowds by using behavioral clustering for the surrounding agents and representing the crowd as a set of moving polygons. Once the environment has been modelled in this way and the robot has all the information it needs, we then propose a navigation algorithm that is able to guide the vehicle through the scene. The key-points of this algorithm are that (1) it can avoid densely-populated areas in order to minimize the risk of being on a collision course with any of the surrounding dynamic obstacles, (...
For robotic vehicles to navigate safely and efficiently in pedestrian-rich environments, it is impor...
International audienceIn the everyday exercise of controlling their locomotion, humans rely on their...
Pedestrians implicitly cooperate by forming lanes inside dense crowd in order to facilitate flow and...
International audienceNavigating in complex and highly dynamic environments such as crowds is still ...
This thesis presents a novel path planning algorithm for robotic crowd navigation through a pedestri...
Autonomous navigation in highly populated areas remains a challenging task for robots because of the...
We consider mobile robot navigation in dense human crowds. In particular, we explore two questions. ...
Autonomous Mobile robots are increasingly populating our human environments. A safe and efficient na...
Abstract — Nowadays, robots often operate in environments that they share with humans. The ability t...
Abstract — The vision-based mechanisms that pedestrians in social groups use to navigate in dynamic ...
Navigating through human crowds is a challenging task for robots. Classic approaches treat people a...
Recent protocols and metrics for training and evaluating autonomous robot navigation through crowds ...
International audienceThe ACANTO project is developing robotic assistants to aid the mobility and re...
People with impaired physical or mental ability often find it challenging to negotiate crowded or un...
This article extends ideas from crowd dynamics to a navigationcontroller for mobile robots. Each mob...
For robotic vehicles to navigate safely and efficiently in pedestrian-rich environments, it is impor...
International audienceIn the everyday exercise of controlling their locomotion, humans rely on their...
Pedestrians implicitly cooperate by forming lanes inside dense crowd in order to facilitate flow and...
International audienceNavigating in complex and highly dynamic environments such as crowds is still ...
This thesis presents a novel path planning algorithm for robotic crowd navigation through a pedestri...
Autonomous navigation in highly populated areas remains a challenging task for robots because of the...
We consider mobile robot navigation in dense human crowds. In particular, we explore two questions. ...
Autonomous Mobile robots are increasingly populating our human environments. A safe and efficient na...
Abstract — Nowadays, robots often operate in environments that they share with humans. The ability t...
Abstract — The vision-based mechanisms that pedestrians in social groups use to navigate in dynamic ...
Navigating through human crowds is a challenging task for robots. Classic approaches treat people a...
Recent protocols and metrics for training and evaluating autonomous robot navigation through crowds ...
International audienceThe ACANTO project is developing robotic assistants to aid the mobility and re...
People with impaired physical or mental ability often find it challenging to negotiate crowded or un...
This article extends ideas from crowd dynamics to a navigationcontroller for mobile robots. Each mob...
For robotic vehicles to navigate safely and efficiently in pedestrian-rich environments, it is impor...
International audienceIn the everyday exercise of controlling their locomotion, humans rely on their...
Pedestrians implicitly cooperate by forming lanes inside dense crowd in order to facilitate flow and...