Add to ORKGWe have recently introduced a neural network mobile robot controller (NETMORC). The controller is based on earlier neural network models of biological sensory-motor control. We have shown that NETMORC is able to guide a differential drive mobile robot to an arbitrary stationary or moving target while compensating for noise and other forms of disturbance, such as wheel slippage or changes in the robot's plant. Furthermore, NETMORC is able to adapt in response to long-term changes in the robot's plant, such as a change in the radius of the wheels. In this article we first review the NETMORC architecture, and then we prove that NETMORC is asymptotically stable. After presenting a series of simulations results showing robustness to disturbances...
WORLD CONGRESS OF IFAC (13.1996.SAN FRANCISCO, USA)This paper presents a way of implementing a Model...
. To get a better understanding of the application of artificial neural networks to the robotics fie...
We have recently introduced a self-organizing adaptive neural controller that learns to control move...
We have recently introduced a neural network mobile robot controller (NETMORC). The controller is ba...
This article introduces a real-time, unsupervised neural network that learns to control a two-degree...
Abstract — This paper focuses on the study of a bio-inspired neural controller used to govern a mobi...
This article introduces an unsupervised neural architecture for the control of a mobile robot. The ...
In this paper the neural network-based controller is designed for motion control of a mobile robot. ...
Mobile robot are widely applied in various aspect of human life. The main issue of this type of rob...
In recent years researchers in the Department of Cybernetics have been developing simple mobile robo...
This paper deals with the reactive control of an autonomous robot which move safely in a crowded rea...
In prior research, we have shown that autonomous mobile robot controller using pulsed neural network...
The complete model of a mobile robot can be divided into kinematics and dynamics. To take advantage ...
The paper proposes a neural networks approach to the solution of the tracking problem for mobile rob...
The paper proposes a neural networks approach to the solution of the tracking problem for mobile rob...
WORLD CONGRESS OF IFAC (13.1996.SAN FRANCISCO, USA)This paper presents a way of implementing a Model...
. To get a better understanding of the application of artificial neural networks to the robotics fie...
We have recently introduced a self-organizing adaptive neural controller that learns to control move...
We have recently introduced a neural network mobile robot controller (NETMORC). The controller is ba...
This article introduces a real-time, unsupervised neural network that learns to control a two-degree...
Abstract — This paper focuses on the study of a bio-inspired neural controller used to govern a mobi...
This article introduces an unsupervised neural architecture for the control of a mobile robot. The ...
In this paper the neural network-based controller is designed for motion control of a mobile robot. ...
Mobile robot are widely applied in various aspect of human life. The main issue of this type of rob...
In recent years researchers in the Department of Cybernetics have been developing simple mobile robo...
This paper deals with the reactive control of an autonomous robot which move safely in a crowded rea...
In prior research, we have shown that autonomous mobile robot controller using pulsed neural network...
The complete model of a mobile robot can be divided into kinematics and dynamics. To take advantage ...
The paper proposes a neural networks approach to the solution of the tracking problem for mobile rob...
The paper proposes a neural networks approach to the solution of the tracking problem for mobile rob...
WORLD CONGRESS OF IFAC (13.1996.SAN FRANCISCO, USA)This paper presents a way of implementing a Model...
. To get a better understanding of the application of artificial neural networks to the robotics fie...
We have recently introduced a self-organizing adaptive neural controller that learns to control move...