This paper presents a path-following system implemented with two different types of neural networks, that enables an autonomous mobile robot to return along a previously learned path in a dynamic environment. The path-following is based on data provided by an omnidirectional conical visual system, derived from the COPIS sensor, but with different optical reflective properties. The system uses optical and software processing and a neural network to learn the path, described as a sequence of selected points. In the navigation phase it drives the robot along this learned path. Interesting results have been achieved using low cost equipment. Test and results are presented
in this present work we present a neural network navigation approach. To deal with cognitive asks su...
In this paper, we proposed a method for near range path navigation for a mobile robot by using a pai...
In this paper we present a navigation algorithm that enables mobile robots to retrace routes previou...
Navigation is a major challenge for autonomous, mobile robots. The problem can basically be divided ...
This thesis describes the use of a vision system for navigating an AGV through a given path. Many di...
A complex sensor based control system is presented. The sensor used is a pair of TV cameras providi...
Abstract: The aim of this work is to propose an artificial neural network based solution to a robot ...
Robotic path planning and obstacle avoidance has been the subject of intensive research in recent ye...
Robotic navigation has been an area of intense research since the onset of mobile robot development....
In this paper we propose a neural network based navigation for intelligent autonomous mobile robots....
Navigation is the main issue for autonomous mobile robot due to its mobility in an unstructured envi...
In this paper the feasibility of equipping a mobile robot with the ability to learn a path, in real ...
A review is given on the use of neural networks for mobile robots and autonomous vehicles. The paper...
In this paper we propose a simple method for low-level navigation for autonomous mobile robots, empl...
The goal of this project is to develop a new method of Route following for mobile robots in a GNSSde...
in this present work we present a neural network navigation approach. To deal with cognitive asks su...
In this paper, we proposed a method for near range path navigation for a mobile robot by using a pai...
In this paper we present a navigation algorithm that enables mobile robots to retrace routes previou...
Navigation is a major challenge for autonomous, mobile robots. The problem can basically be divided ...
This thesis describes the use of a vision system for navigating an AGV through a given path. Many di...
A complex sensor based control system is presented. The sensor used is a pair of TV cameras providi...
Abstract: The aim of this work is to propose an artificial neural network based solution to a robot ...
Robotic path planning and obstacle avoidance has been the subject of intensive research in recent ye...
Robotic navigation has been an area of intense research since the onset of mobile robot development....
In this paper we propose a neural network based navigation for intelligent autonomous mobile robots....
Navigation is the main issue for autonomous mobile robot due to its mobility in an unstructured envi...
In this paper the feasibility of equipping a mobile robot with the ability to learn a path, in real ...
A review is given on the use of neural networks for mobile robots and autonomous vehicles. The paper...
In this paper we propose a simple method for low-level navigation for autonomous mobile robots, empl...
The goal of this project is to develop a new method of Route following for mobile robots in a GNSSde...
in this present work we present a neural network navigation approach. To deal with cognitive asks su...
In this paper, we proposed a method for near range path navigation for a mobile robot by using a pai...
In this paper we present a navigation algorithm that enables mobile robots to retrace routes previou...