One of the most demanding skills for a mobile robot is to be intelligent enough to know its own location. The global localization problem consists of obtaining the robot's pose (position and orientation) in a known map if the initial location is unknown. This task is addressed applying evolutionary computation concepts (Differential Evolution). In the current approach, the distances obtained from the laser sensors are combined with the predicted scan (in the known map) from possible locations to implement a cost function that is optimized by an evolutionary filter. The laser beams (sensor information) are modeled using a combination of probability distributions to implement a non-symmetric fitness function. The main contribution of this pap...
In this paper we propose a novel method of sensor planning for a mobile robot localization problem. ...
Determining position of a robot and knowing position of the required objects on the map in unknown e...
The global localization methods deal with the estimation of the pose of a mobile robot assuming no p...
One of the most demanding skills for a mobile robot is to be intelligent enough to know its own loca...
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...
A key challenge for an autonomous mobile robot is to estimate its location according to the availabl...
Abstract Anew algorithmbased on evolutionary computation concepts is presented in this paper. This a...
Autonomous systems are able to move from one point to another in a given environment because they ca...
A fully autonomous robot must obtain and interpret information about the environment to execute seve...
The localization problem in mobile robotics can be defined as the search of the robot's coordinates ...
peer reviewedWe are seeking linear projections of supervised high-dimensional robot observations and...
The localization of mobile robots has been studied rigorously in the past. However, only a few studi...
A mobile robot requires the perception of its local environment for position estimation. Ultrasonic ...
Localization, i.e., estimating a robot pose relative to a map of an environment, is one of the most ...
In this paper we propose a novel method of sensor planning for a mobile robot localization problem. ...
Determining position of a robot and knowing position of the required objects on the map in unknown e...
The global localization methods deal with the estimation of the pose of a mobile robot assuming no p...
One of the most demanding skills for a mobile robot is to be intelligent enough to know its own loca...
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...
A key challenge for an autonomous mobile robot is to estimate its location according to the availabl...
Abstract Anew algorithmbased on evolutionary computation concepts is presented in this paper. This a...
Autonomous systems are able to move from one point to another in a given environment because they ca...
A fully autonomous robot must obtain and interpret information about the environment to execute seve...
The localization problem in mobile robotics can be defined as the search of the robot's coordinates ...
peer reviewedWe are seeking linear projections of supervised high-dimensional robot observations and...
The localization of mobile robots has been studied rigorously in the past. However, only a few studi...
A mobile robot requires the perception of its local environment for position estimation. Ultrasonic ...
Localization, i.e., estimating a robot pose relative to a map of an environment, is one of the most ...
In this paper we propose a novel method of sensor planning for a mobile robot localization problem. ...
Determining position of a robot and knowing position of the required objects on the map in unknown e...
The global localization methods deal with the estimation of the pose of a mobile robot assuming no p...