Advancements in deep learning have catalyzed growth in robotic applications, extending their utility beyond constrained settings. Nevertheless, a significant challenge remains in en- abling robots to efficiently navigate and interact within unstructured and dynamic environments. Existing methods in robot navigation require the use of dense geometric representations such as high definition maps or full 3D reconstruction. But these methods are non trivial and consume significant resources in both creation and usage. They also become stale for environments with constant changes. To be able to scale in terms of size and novelty of the environment, new algorithms that use representations accounting for semantics is required. Besides that, to be ...
A robot that can carry out a natural-language instruction has been a dream since before the Jetsons ...
Dataset of the CoRL 2021 Paper "Self-Improving Semantic Perception for Indoor Localisation" Abst...
International audience— Mimicking human navigation is a challenging goal for autonomous robots. This...
As roboticists, we look forward to the days in which robots will be ubiquitous in our lives. For rob...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Navigation is one of the most heavily studied problems in robotics and is conventionally approached ...
There are millions of robots in operation around the world today, and almost all of them operate on ...
The objective of the chapter is to show current trends in robot navigation systems related to indoor...
219 pagesRobot applications in unstructured human-inhabited environments, such as households, assist...
We discuss the process of building semantic maps, how to interactively label entities in them, and h...
Sensing and mapping its surroundings is an essential requirement for a mobile robot. Geometric maps ...
In order to improve the environmental perception ability of mobile robots during semantic navigation...
A robot that can carry out a natural-language instruction has been a dream since before the Jetsons ...
Robots, in order to properly interact with people and effectively perform the requested tasks, shoul...
Machine learning can offer an increase in the flexibility and applicability of robotics at several l...
A robot that can carry out a natural-language instruction has been a dream since before the Jetsons ...
Dataset of the CoRL 2021 Paper "Self-Improving Semantic Perception for Indoor Localisation" Abst...
International audience— Mimicking human navigation is a challenging goal for autonomous robots. This...
As roboticists, we look forward to the days in which robots will be ubiquitous in our lives. For rob...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Electrical Engineering and Comp...
Navigation is one of the most heavily studied problems in robotics and is conventionally approached ...
There are millions of robots in operation around the world today, and almost all of them operate on ...
The objective of the chapter is to show current trends in robot navigation systems related to indoor...
219 pagesRobot applications in unstructured human-inhabited environments, such as households, assist...
We discuss the process of building semantic maps, how to interactively label entities in them, and h...
Sensing and mapping its surroundings is an essential requirement for a mobile robot. Geometric maps ...
In order to improve the environmental perception ability of mobile robots during semantic navigation...
A robot that can carry out a natural-language instruction has been a dream since before the Jetsons ...
Robots, in order to properly interact with people and effectively perform the requested tasks, shoul...
Machine learning can offer an increase in the flexibility and applicability of robotics at several l...
A robot that can carry out a natural-language instruction has been a dream since before the Jetsons ...
Dataset of the CoRL 2021 Paper "Self-Improving Semantic Perception for Indoor Localisation" Abst...
International audience— Mimicking human navigation is a challenging goal for autonomous robots. This...