An increased interest in mobile robots has been seen over the past years. The wide range of possible applications, from vacuum cleaners to assistant robots, makes such robots an interesting solution to many everyday problems. A key requirement for the mass deployment of such robots is to ensure they can safely navigate around our daily living environments. A robot colliding with or bumping into a person may be, in some contexts, unacceptable. For example, if a robot working around elderly people collides with one of them, it may cause serious injuries. This thesis explores four major components required for effective robot navigation: sensing the static environment, detection and tracking of moving people, obstacle and people avoid...
Copyright IEEE. Personal use of this material is permitted. However, permission to reprint/republish...
© 2021 by the authors. This article is an open access article distributed under the terms and condit...
Understanding how people are likely to move is key to efficient and safe robot navigation in human e...
In the past, mobile robots have been constrained to operate in either an indoor or an outdoor envir...
Future tasks for robots to support humans in complex, dynamic, or human-populated environments will ...
Crowded human environments such as pedestrian scenes constitute challenging domains for mobile robot...
Respecting people’s social spaces is an importantprerequisite for acceptable and natural robot navig...
Socially compliant robot navigation is one of the key aspects for long-term acceptance of mobile rob...
Mobility is an important feature that sets mobile robotics apart from other robotics fields. Mobile ...
Social perception and safe navigation are the main requirements for deploying a mobile robot in a hu...
The aim of this thesis is to implement a personalized autonomous robotic framework for providing use...
National audienceInvited Talk: Safe robot navigation in Uncertain, Dynamic and Human-populated envir...
Autonomous Mobile robots are increasingly populating our human environments. A safe and efficient na...
Mobile robots that encounter people on a regular basis must react to them in some way. While traditi...
Deploying mobile robots in social environments requires novel navigation algorithms which are capabl...
Copyright IEEE. Personal use of this material is permitted. However, permission to reprint/republish...
© 2021 by the authors. This article is an open access article distributed under the terms and condit...
Understanding how people are likely to move is key to efficient and safe robot navigation in human e...
In the past, mobile robots have been constrained to operate in either an indoor or an outdoor envir...
Future tasks for robots to support humans in complex, dynamic, or human-populated environments will ...
Crowded human environments such as pedestrian scenes constitute challenging domains for mobile robot...
Respecting people’s social spaces is an importantprerequisite for acceptable and natural robot navig...
Socially compliant robot navigation is one of the key aspects for long-term acceptance of mobile rob...
Mobility is an important feature that sets mobile robotics apart from other robotics fields. Mobile ...
Social perception and safe navigation are the main requirements for deploying a mobile robot in a hu...
The aim of this thesis is to implement a personalized autonomous robotic framework for providing use...
National audienceInvited Talk: Safe robot navigation in Uncertain, Dynamic and Human-populated envir...
Autonomous Mobile robots are increasingly populating our human environments. A safe and efficient na...
Mobile robots that encounter people on a regular basis must react to them in some way. While traditi...
Deploying mobile robots in social environments requires novel navigation algorithms which are capabl...
Copyright IEEE. Personal use of this material is permitted. However, permission to reprint/republish...
© 2021 by the authors. This article is an open access article distributed under the terms and condit...
Understanding how people are likely to move is key to efficient and safe robot navigation in human e...