Robotic navigation has been approached as a problem of 3D reconstruction and planning, as well as an end-to-end learning problem. However, long-range navigation requires both planning and reasoning about local traversability, as well as being able to utilize general knowledge about global geography, in the form of a roadmap, GPS, or other side information providing important cues. In this work, we propose an approach that integrates learning and planning, and can utilize side information such as schematic roadmaps, satellite maps and GPS coordinates as a planning heuristic, without relying on them being accurate. Our method, ViKiNG, incorporates a local traversability model, which looks at the robot's current camera observation and a potent...
Map-based navigation is a crucial task for any mobile robot. Usually, in an unknown environment, thi...
This paper addresses the problem of autonomous exploration and mapping of unknown environments by a ...
Humans have long marveled at the ability of animals to navigate swiftly, accurately, and across long...
Journal ArticleIn a large-scale s ace, navigation may occur among very dispersed landmarks, further ...
Realistic long-horizon tasks like image-goal navigation involve exploratory and exploitative phases....
Autonomous outdoor navigation has broad application in mining, construction, planetary exploration, ...
We propose a robotic learning system for autonomous exploration and navigation in unexplored environ...
Navigation is one of the most heavily studied problems in robotics and is conventionally approached ...
International audience— Mimicking human navigation is a challenging goal for autonomous robots. This...
AbstractIn this paper, we propose and investigate a new model for robot navigation in large unstruct...
Most autonomous outdoor navigation systems tested on actual robots have centered on local navigation...
Autonomous robotic exploration is expanding into an ever-increasing set of critical applications inc...
It is extremely difficult to teach robots the skills that humans take for granted. Understanding the...
In this thesis, I took two key ideas of cognitive mapping developed in Yeap’s (1988) theory of cogni...
Mobile robots need maps or other forms of geometric information about the environment to navigate. T...
Map-based navigation is a crucial task for any mobile robot. Usually, in an unknown environment, thi...
This paper addresses the problem of autonomous exploration and mapping of unknown environments by a ...
Humans have long marveled at the ability of animals to navigate swiftly, accurately, and across long...
Journal ArticleIn a large-scale s ace, navigation may occur among very dispersed landmarks, further ...
Realistic long-horizon tasks like image-goal navigation involve exploratory and exploitative phases....
Autonomous outdoor navigation has broad application in mining, construction, planetary exploration, ...
We propose a robotic learning system for autonomous exploration and navigation in unexplored environ...
Navigation is one of the most heavily studied problems in robotics and is conventionally approached ...
International audience— Mimicking human navigation is a challenging goal for autonomous robots. This...
AbstractIn this paper, we propose and investigate a new model for robot navigation in large unstruct...
Most autonomous outdoor navigation systems tested on actual robots have centered on local navigation...
Autonomous robotic exploration is expanding into an ever-increasing set of critical applications inc...
It is extremely difficult to teach robots the skills that humans take for granted. Understanding the...
In this thesis, I took two key ideas of cognitive mapping developed in Yeap’s (1988) theory of cogni...
Mobile robots need maps or other forms of geometric information about the environment to navigate. T...
Map-based navigation is a crucial task for any mobile robot. Usually, in an unknown environment, thi...
This paper addresses the problem of autonomous exploration and mapping of unknown environments by a ...
Humans have long marveled at the ability of animals to navigate swiftly, accurately, and across long...