AbstractWe consider the following problem: a robot is at an unknown position in an indoor-environment and has to do a complete relocalization, that is, it has to enumerate all positions that it might be located at. This problem occurs when, for example, the robot “wakes up” after a breakdown (e.g., a power failure or maintenance works) and the possibility exists that it has been moved meanwhile. An idealized version of this problem, where the robot has a range sensor, a polygonal map, and a compass, all of which are exact, that is, without any noise, was solved by Guibas et al. [5]. In the context of their method, we first show that the preprocessing bounds can be expressed slightly sharper. Then we describe an approach to modifying their s...
Effective robot navigation and route planning is impossible unless the position of the robot within ...
Dataset of the CoRL 2021 Paper "Self-Improving Semantic Perception for Indoor Localisation" Abst...
The article proposes a solution to map-based self-localization for an autonomous robot operating in ...
We consider the following problem: a robot is at an unknown position in an indoor-environment and ha...
To perform tasks autonomously a robot oftentimes needs to be able to localize itself. One specific ...
Nowadays, robotics plays an important role in increasing fields of application. There exist many env...
Localization is a fundamental problem for many kinds of mobile robots. Sensor systems of varying abi...
A challenging issue in the field of robotics is the lost robot problem, in which a robot has to relo...
International audienceThis paper tackles the problem of re-localization in a swarm of moving virtual...
We consider the problem of localizing a robot in a known environment modeled by a simple polygon P ....
This thesis addresses the problem of minimum distance localization in environments that may have st...
This paper addresses the scalability of existing techniques for mobile robot navigation to work in l...
We consider the problem of localizing a robot in a known environment modeled by a simple polygon P ....
In this thesis, I took two key ideas of cognitive mapping developed in Yeap’s (1988) theory of cogni...
The problem of robotic mapping and localization is that of constructing a spatial model (the map) of...
Effective robot navigation and route planning is impossible unless the position of the robot within ...
Dataset of the CoRL 2021 Paper "Self-Improving Semantic Perception for Indoor Localisation" Abst...
The article proposes a solution to map-based self-localization for an autonomous robot operating in ...
We consider the following problem: a robot is at an unknown position in an indoor-environment and ha...
To perform tasks autonomously a robot oftentimes needs to be able to localize itself. One specific ...
Nowadays, robotics plays an important role in increasing fields of application. There exist many env...
Localization is a fundamental problem for many kinds of mobile robots. Sensor systems of varying abi...
A challenging issue in the field of robotics is the lost robot problem, in which a robot has to relo...
International audienceThis paper tackles the problem of re-localization in a swarm of moving virtual...
We consider the problem of localizing a robot in a known environment modeled by a simple polygon P ....
This thesis addresses the problem of minimum distance localization in environments that may have st...
This paper addresses the scalability of existing techniques for mobile robot navigation to work in l...
We consider the problem of localizing a robot in a known environment modeled by a simple polygon P ....
In this thesis, I took two key ideas of cognitive mapping developed in Yeap’s (1988) theory of cogni...
The problem of robotic mapping and localization is that of constructing a spatial model (the map) of...
Effective robot navigation and route planning is impossible unless the position of the robot within ...
Dataset of the CoRL 2021 Paper "Self-Improving Semantic Perception for Indoor Localisation" Abst...
The article proposes a solution to map-based self-localization for an autonomous robot operating in ...