A key challenge for an autonomous mobile robot is to estimate its location according to the available information. A particular aspect of this task is the global localization problem. In our previous work, we developed an algorithm based on the Differential Evolution method that solves this problem in 2D and 3D environments. The robot’s pose is represented by a set of possible location estimates weighted by a fitness function. The Markov Chain Monte Carlo algorithms have been successfully applied to multiple fields such as econometrics or computing science. It has been demonstrated that they can be combined with the Differential Evolution method to solve efficiently many optimization problems. In this work, we have combined both approaches ...
<p>As robots become increasingly available and capable, there has been an increased interest in havi...
To navigate reliably in indoor environments, a mobile robot must know where it is. Thus, reliable p...
In this paper, we propose an enhanced Monte Carlo localization (EMCL) algorithm for mobile robots, w...
A key challenge for an autonomous mobile robot is to estimate its location according to the availabl...
One of the most important skills desired for a mobile robot is the ability to obtain its own locatio...
One of the most important skills desired for a mobile robot is the ability to obtain its own locatio...
Autonomous systems are able to move from one point to another in a given environment because they ca...
One of the most demanding skills for a mobile robot is to be intelligent enough to know its own loca...
Abstract Anew algorithmbased on evolutionary computation concepts is presented in this paper. This a...
The localization problem in mobile robotics can be defined as the search of the robot's coordinates ...
AbstractMobile robot localization is the problem of determining a robot's pose from sensor data. Thi...
Localization, i.e., estimating a robot pose relative to a map of an environment, is one of the most ...
This paper presents a new algorithm for mobile robot localization, called Monte Carlo Localization (...
A fully autonomous robot must obtain and interpret information about the environment to execute seve...
Localisation is one of the most important tasks to be accomplished in order to realize the complete ...
<p>As robots become increasingly available and capable, there has been an increased interest in havi...
To navigate reliably in indoor environments, a mobile robot must know where it is. Thus, reliable p...
In this paper, we propose an enhanced Monte Carlo localization (EMCL) algorithm for mobile robots, w...
A key challenge for an autonomous mobile robot is to estimate its location according to the availabl...
One of the most important skills desired for a mobile robot is the ability to obtain its own locatio...
One of the most important skills desired for a mobile robot is the ability to obtain its own locatio...
Autonomous systems are able to move from one point to another in a given environment because they ca...
One of the most demanding skills for a mobile robot is to be intelligent enough to know its own loca...
Abstract Anew algorithmbased on evolutionary computation concepts is presented in this paper. This a...
The localization problem in mobile robotics can be defined as the search of the robot's coordinates ...
AbstractMobile robot localization is the problem of determining a robot's pose from sensor data. Thi...
Localization, i.e., estimating a robot pose relative to a map of an environment, is one of the most ...
This paper presents a new algorithm for mobile robot localization, called Monte Carlo Localization (...
A fully autonomous robot must obtain and interpret information about the environment to execute seve...
Localisation is one of the most important tasks to be accomplished in order to realize the complete ...
<p>As robots become increasingly available and capable, there has been an increased interest in havi...
To navigate reliably in indoor environments, a mobile robot must know where it is. Thus, reliable p...
In this paper, we propose an enhanced Monte Carlo localization (EMCL) algorithm for mobile robots, w...