In this paper, , we discuss the ability to deal with a Hybrid Intelligent Systems (HIS) for Intelligent Autonomous Vehicles IAV in unknown environment. The aim of this work is to develop HIS combining Genetic Algorithms (GA), Fuzzy Logic (FL), Neural Networks (NN) and Expert Systems (ES). This project deals with a simulation program that allows a robot to identify a path to reach a specified target avoiding obstacles. The combination of (ES FL, NN, GA) offers design flexibility and robust integration and has the benefits of reduced communications overhead and improved runtime performance. This integration provides the robot the possibility to move from the initial position to the final position (target) without collisions. The robot moves w...
and adaptive neuro-fuzzy inference system (ANFIS) are mainly considered as effective and suitable me...
Autonomous and semiautonomous robots are certain to play a major role in several areas in the future...
Abstract:- This paper introduces a new model of control system for mobile robot navigation in unknow...
In this paper we discuss the ability to deal with a fuzzy logic navigation approach for intelligent ...
we present an algorithm for path planning to a target for mobile robot in unknown environment. The p...
The main problem to be solved for autonomous indoor robots is that the environment where they have t...
A lot of research has been done in the field of path planning of wheeled as well as ...
The objective of this study was to solve the robot dynamic hybrid control problem using intelligent...
In this paper, a genetic-fuzzy approach is developed for solving the motion planning problem of a mo...
AbstractIn this paper, a genetic-fuzzy approach is developed for solving the motion planning problem...
ABSTRACT- An Autonomous Mobile Robot (AMR) is a machine able to extract information from its environ...
In this paper, we present an intelligent control of an autonomous mobile robot in unknown environmen...
Navigation of a wheeled robot in unknown environments is proposed in this paper. The approach may be...
Abstract:- The obstacle avoidance and path planning is one of the most important problem in mobile r...
The present article is devoted to develop an algorithm for obstacle avoidance of an autonomous mobil...
and adaptive neuro-fuzzy inference system (ANFIS) are mainly considered as effective and suitable me...
Autonomous and semiautonomous robots are certain to play a major role in several areas in the future...
Abstract:- This paper introduces a new model of control system for mobile robot navigation in unknow...
In this paper we discuss the ability to deal with a fuzzy logic navigation approach for intelligent ...
we present an algorithm for path planning to a target for mobile robot in unknown environment. The p...
The main problem to be solved for autonomous indoor robots is that the environment where they have t...
A lot of research has been done in the field of path planning of wheeled as well as ...
The objective of this study was to solve the robot dynamic hybrid control problem using intelligent...
In this paper, a genetic-fuzzy approach is developed for solving the motion planning problem of a mo...
AbstractIn this paper, a genetic-fuzzy approach is developed for solving the motion planning problem...
ABSTRACT- An Autonomous Mobile Robot (AMR) is a machine able to extract information from its environ...
In this paper, we present an intelligent control of an autonomous mobile robot in unknown environmen...
Navigation of a wheeled robot in unknown environments is proposed in this paper. The approach may be...
Abstract:- The obstacle avoidance and path planning is one of the most important problem in mobile r...
The present article is devoted to develop an algorithm for obstacle avoidance of an autonomous mobil...
and adaptive neuro-fuzzy inference system (ANFIS) are mainly considered as effective and suitable me...
Autonomous and semiautonomous robots are certain to play a major role in several areas in the future...
Abstract:- This paper introduces a new model of control system for mobile robot navigation in unknow...