Abstract—The localization problem for an autonomous robot moving in a known environment is a well-studied problem which has seen many elegant solutions. Robot localization in a dynamic environment populated by several moving obstacles, however, is still a challenge for research. In this paper, we use an omnidirec-tional camera mounted on a mobile robot to perform a sort of scan matching. The omnidirectional vision system finds the distances of the closest color transitions in the environment, mimicking the way laser rangefinders detect the closest obstacles. The similarity of our sensor with classical rangefinders allows the use of practically unmodified Monte Carlo algorithms, with the additional advan-tage of being able to easily detect o...
A new technique for vision processing is presented which lets a mobile robot equipped with an omnidi...
The localization of a mobile robot in a real environment is a complex task. In this paper, an algori...
DoctorMobile robot perceives its position using sensory information acquired by robot motion. This p...
The localization problem for an autonomous robot moving in a known environment is a well-studied pro...
One of the most challenging issue in mobile robot navigation is the localization problem in densely ...
One of the most challenging issues in mobile robot navigation is the localization problem in densely...
Abstract – The new approach to utilize information from an omnidirectional image is presented in thi...
In this paper we present a new approach for omnidirectional vision-based self-localization in the Ro...
n this paper, we present a new approach for omnidirectional vision-based self-localization in the Ro...
In this paper we deal with the problem of map building and localization of a mobile robot in an envi...
Localization of mobile robots are important tasks for developing autonomous mobile robots. This pape...
This paper addresses the problem of long term mobile robot localization in large urban environments....
A new technique for vision processing is presented which lets a mobile robot equipped with an omnidi...
In this paper we present a system for topologically localizing a mobile robot using color histogram ...
Vision-based robot localization is challenging due to the vast amount of visual information availabl...
A new technique for vision processing is presented which lets a mobile robot equipped with an omnidi...
The localization of a mobile robot in a real environment is a complex task. In this paper, an algori...
DoctorMobile robot perceives its position using sensory information acquired by robot motion. This p...
The localization problem for an autonomous robot moving in a known environment is a well-studied pro...
One of the most challenging issue in mobile robot navigation is the localization problem in densely ...
One of the most challenging issues in mobile robot navigation is the localization problem in densely...
Abstract – The new approach to utilize information from an omnidirectional image is presented in thi...
In this paper we present a new approach for omnidirectional vision-based self-localization in the Ro...
n this paper, we present a new approach for omnidirectional vision-based self-localization in the Ro...
In this paper we deal with the problem of map building and localization of a mobile robot in an envi...
Localization of mobile robots are important tasks for developing autonomous mobile robots. This pape...
This paper addresses the problem of long term mobile robot localization in large urban environments....
A new technique for vision processing is presented which lets a mobile robot equipped with an omnidi...
In this paper we present a system for topologically localizing a mobile robot using color histogram ...
Vision-based robot localization is challenging due to the vast amount of visual information availabl...
A new technique for vision processing is presented which lets a mobile robot equipped with an omnidi...
The localization of a mobile robot in a real environment is a complex task. In this paper, an algori...
DoctorMobile robot perceives its position using sensory information acquired by robot motion. This p...