AbstractAn uncertainty management subsystem for a mobile robot is described within the context of the autonomous robot architecture (AuRA). This system incorporates a spatial uncertainty map that represents both the positional and orientational uncertainty in a mobile vehicle relative to a global map. The spatial uncertainty map consists of a convex polygonal region and a compass wedge which are used to relate the robot's current position relative to the world model.Techniques for uncertainty growth during motion and uncertainty reduction by landmark recognition are presented. The spatial uncertainty increases as the robot moves through the world in a manner dependent on the underlying terrain. Three different landmark classes are described...
Abstract: This paper shows the reasons of an incomparability of path finding algorithms in...
In many applications in mobile robotics, it is important for a robot to explore its environment in ...
This paper deals with the problem of managing the uncertainty of an environment where a mobile robot...
AbstractAn uncertainty management subsystem for a mobile robot is described within the context of th...
Autonomous navigation systems which operate in unknown or partially known environments strongly rely...
Abstract. Navigation in unknown or partially unknown environments remains one of the biggest challen...
Abstract. Navigation in unknown or partially unknown environments remains one of the biggest challen...
The presence of uncertainty in the robot configuration and that of the other static or moving entiti...
International audienceThis paper addresses the problem of planning the motions of a circular mobile ...
Abstract — We present a novel approach to mobile robot navigation that enables navigation in outdoor...
This paper discusses how uncertainty models of vision-based positioning sensors can be used to suppo...
To operate successfully in any environment, mobile robots must be able to localize themselves accura...
This article presents an algorithm for autonomous map building and maintenance for a mobile robot. W...
A robotic system is presented, which is able to autonomously explore unengineered indoor environment...
Navigating autonomously is one of the most important problems facing outdoor mobile robots. This tas...
Abstract: This paper shows the reasons of an incomparability of path finding algorithms in...
In many applications in mobile robotics, it is important for a robot to explore its environment in ...
This paper deals with the problem of managing the uncertainty of an environment where a mobile robot...
AbstractAn uncertainty management subsystem for a mobile robot is described within the context of th...
Autonomous navigation systems which operate in unknown or partially known environments strongly rely...
Abstract. Navigation in unknown or partially unknown environments remains one of the biggest challen...
Abstract. Navigation in unknown or partially unknown environments remains one of the biggest challen...
The presence of uncertainty in the robot configuration and that of the other static or moving entiti...
International audienceThis paper addresses the problem of planning the motions of a circular mobile ...
Abstract — We present a novel approach to mobile robot navigation that enables navigation in outdoor...
This paper discusses how uncertainty models of vision-based positioning sensors can be used to suppo...
To operate successfully in any environment, mobile robots must be able to localize themselves accura...
This article presents an algorithm for autonomous map building and maintenance for a mobile robot. W...
A robotic system is presented, which is able to autonomously explore unengineered indoor environment...
Navigating autonomously is one of the most important problems facing outdoor mobile robots. This tas...
Abstract: This paper shows the reasons of an incomparability of path finding algorithms in...
In many applications in mobile robotics, it is important for a robot to explore its environment in ...
This paper deals with the problem of managing the uncertainty of an environment where a mobile robot...