Add to ORKGDespite the many significant advances made in robotics research, few works have focused on the tight integration of task planning and motion control. Most integration works involve the task planner providing discrete commands to the low-level controller, which performs kinematics and control computations to command the motor and joint actuators. This paper presents a framework of the integrated planning and control for mobile robot navigation. Unlike existing integrated approaches, it produces a sequence of checkpoints instead of a complete path at the planning level. At the motion control level, a neural network is trained to perform motor control that moves the robot from one checkpoint to the next. This method allows for a tight integrat...
Context: Mobile robotics remains being an area of constant updating, which seeks to have application...
In this document, I describe possibilities of mobile robot navigation. This problems are solving man...
In this paper we propose a neural network based navigation for intelligent autonomous mobile robots....
Abstract—Despite the many significant advances made in robotics research, few works have focused on ...
Research in the planning and control of mobile robots has received much attention in the past two de...
Proceedings - IEEE International Conference on Robotics and Automation43870-3875PIIA
Motion planning is essential for mobile robot successful navigation. There are many algorithms for m...
... received much attention in the past two decades. Two basic approaches have emerged from these re...
Abstract- In this work an autonomous navigation system based in a modular neuro-fuzzy network for co...
Navigation is a major challenge for autonomous, mobile robots. The problem can basically be divided ...
This paper deals with a path planning and intelligent control of an autonomous robot which should mo...
Mobile robot are widely applied in various aspect of human life. The main issue of this type of rob...
This paper deals with the reactive control of an autonomous robot which move safely in a crowded rea...
A review is given on the use of neural networks for mobile robots and autonomous vehicles. The paper...
International audienceThis paper presents an artificial neural network-based control architecture al...
Context: Mobile robotics remains being an area of constant updating, which seeks to have application...
In this document, I describe possibilities of mobile robot navigation. This problems are solving man...
In this paper we propose a neural network based navigation for intelligent autonomous mobile robots....
Abstract—Despite the many significant advances made in robotics research, few works have focused on ...
Research in the planning and control of mobile robots has received much attention in the past two de...
Proceedings - IEEE International Conference on Robotics and Automation43870-3875PIIA
Motion planning is essential for mobile robot successful navigation. There are many algorithms for m...
... received much attention in the past two decades. Two basic approaches have emerged from these re...
Abstract- In this work an autonomous navigation system based in a modular neuro-fuzzy network for co...
Navigation is a major challenge for autonomous, mobile robots. The problem can basically be divided ...
This paper deals with a path planning and intelligent control of an autonomous robot which should mo...
Mobile robot are widely applied in various aspect of human life. The main issue of this type of rob...
This paper deals with the reactive control of an autonomous robot which move safely in a crowded rea...
A review is given on the use of neural networks for mobile robots and autonomous vehicles. The paper...
International audienceThis paper presents an artificial neural network-based control architecture al...
Context: Mobile robotics remains being an area of constant updating, which seeks to have application...
In this document, I describe possibilities of mobile robot navigation. This problems are solving man...
In this paper we propose a neural network based navigation for intelligent autonomous mobile robots....