In this paper, we address the problem of navigating an autonomous mobile robot in an unknown indoor environment. The parti-game multiresolution learning approach is applied for simultaneous and cooperative construction of a world model, and learning to navigate through an obstacle-free path from a starting position to a known goal region. The paper introduces a new approach, based on the application of the fuzzy ART neural architecture, for on-line map building from actual sensor data. This method is then integrated, as a complement, on the parti-game world model, allowing the system to make a more efficient use of collected sensor information. Then, a predictive on-line trajectory filtering method, is introduced in the learning approach. I...
Abstract Mobile robots must be able to build their own maps to navigate in unknown worlds. Expandin...
Integration of skills into an autonomous robot that performs a complex task is described. Time const...
In this paper we propose a neural network based navigation for intelligent autonomous mobile robots....
Abstract — In this paper we address the problem of navi-gating an autonomous mobile robot on an unkn...
ABSTRACT { This paper presents a new method for mobile robot navigation in an un-known world. The pa...
Online navigation with known target and unknown obstacles is an interesting problem in mobile roboti...
An algorithmic solution method is presented for the problem of autonomous robot motion in completely...
In this paper, we present a novel approach based on intelligent computing which offers to the autono...
Mobile robots an make important ontributions to the integration of industrial oper-ations. The imp...
Abstract. This paper deals with the problem of finding a mobile robot path on an unknown world envir...
This paper studies alternatives to solve the problem of autonomous mobile robots navigation in unkno...
This paper addresses the problem of autonomous exploration and mapping of unknown environments by a ...
In this paper we are on erned with the problem of mobile robot path learning on an unknown world en...
As an essential capability for mobile robots, autonomous navigation has been extensively studied for...
A strategy typically employed for mobile robot navigation in an unknown environment is to follow a n...
Abstract Mobile robots must be able to build their own maps to navigate in unknown worlds. Expandin...
Integration of skills into an autonomous robot that performs a complex task is described. Time const...
In this paper we propose a neural network based navigation for intelligent autonomous mobile robots....
Abstract — In this paper we address the problem of navi-gating an autonomous mobile robot on an unkn...
ABSTRACT { This paper presents a new method for mobile robot navigation in an un-known world. The pa...
Online navigation with known target and unknown obstacles is an interesting problem in mobile roboti...
An algorithmic solution method is presented for the problem of autonomous robot motion in completely...
In this paper, we present a novel approach based on intelligent computing which offers to the autono...
Mobile robots an make important ontributions to the integration of industrial oper-ations. The imp...
Abstract. This paper deals with the problem of finding a mobile robot path on an unknown world envir...
This paper studies alternatives to solve the problem of autonomous mobile robots navigation in unkno...
This paper addresses the problem of autonomous exploration and mapping of unknown environments by a ...
In this paper we are on erned with the problem of mobile robot path learning on an unknown world en...
As an essential capability for mobile robots, autonomous navigation has been extensively studied for...
A strategy typically employed for mobile robot navigation in an unknown environment is to follow a n...
Abstract Mobile robots must be able to build their own maps to navigate in unknown worlds. Expandin...
Integration of skills into an autonomous robot that performs a complex task is described. Time const...
In this paper we propose a neural network based navigation for intelligent autonomous mobile robots....