International audience— Since social, assistive and companion robots need to navigate within human crowds, understanding spatial social conventions while designing navigation solutions for such robots is an essential issue. This work presents an analysis of an socially compliant robot motion strategy that could be employed by social robots such as humanoids, service robots or intelligent wheelchairs, for approaching and joining humans groups in interaction, and then become an equitable part of the interaction. Following our previous work that formalized the motion strategy, a detailed synthesis is presented here with experiments that validate the proposed system in the real world
This thesis proposes a risk-based navigation method including both the traditional notion of risk of...
International audienceSocial Navigation methods attempt to integrate knowledge from Human Sciences f...
Respecting people’s social spaces is an importantprerequisite for acceptable and natural robot navig...
International audience— Since social, assistive and companion robots need to navigate within human c...
International audience— In this work we introduce a low-level system that could be employed by a soc...
Crowded human environments such as pedestrian scenes constitute challenging domains for mobile robot...
The final publication is available at link.springer.comThis paper presents a new framework for how a...
Mobile robots that encounter people on a regular basis must react to them in some way. While traditi...
When referred to robots, the word intelligence has several facets. If a robot is required to operate...
International audienceThis work d deals with the problem of navigating a robot in a constrained huma...
The final publication is available at link.springer.comIn this paper, we present an on-line adaptive...
This article describes the different approaches cur- rently followed in the field of social navigati...
This paper introduces a new method for adaptive control of a robot approaching a person controlled b...
National audienceThe methods of robotic movement planning have grown at an accelerated pace in recen...
International audienceService robots have a great potential of improving human quality of life by ai...
This thesis proposes a risk-based navigation method including both the traditional notion of risk of...
International audienceSocial Navigation methods attempt to integrate knowledge from Human Sciences f...
Respecting people’s social spaces is an importantprerequisite for acceptable and natural robot navig...
International audience— Since social, assistive and companion robots need to navigate within human c...
International audience— In this work we introduce a low-level system that could be employed by a soc...
Crowded human environments such as pedestrian scenes constitute challenging domains for mobile robot...
The final publication is available at link.springer.comThis paper presents a new framework for how a...
Mobile robots that encounter people on a regular basis must react to them in some way. While traditi...
When referred to robots, the word intelligence has several facets. If a robot is required to operate...
International audienceThis work d deals with the problem of navigating a robot in a constrained huma...
The final publication is available at link.springer.comIn this paper, we present an on-line adaptive...
This article describes the different approaches cur- rently followed in the field of social navigati...
This paper introduces a new method for adaptive control of a robot approaching a person controlled b...
National audienceThe methods of robotic movement planning have grown at an accelerated pace in recen...
International audienceService robots have a great potential of improving human quality of life by ai...
This thesis proposes a risk-based navigation method including both the traditional notion of risk of...
International audienceSocial Navigation methods attempt to integrate knowledge from Human Sciences f...
Respecting people’s social spaces is an importantprerequisite for acceptable and natural robot navig...