This article presents the intelligent autonomous anthropomorphic wheeled mobile robotic platform motion control in unstructured environments. The fuzzy control of a wheeled autonomous anthropomorphic mobile robotic platform motion in unstructured environments with obstacles is proposed. Outputs of the fuzzy controller are the angular speed difference between the left and right wheels of the autonomous anthropomorphic robotic platform and the robot velocity. The simulation results show the effectiveness and the validity of the obstacle avoidance behaviour in the unstructured environment and velocity control of autonomous anthropomorphic mobile robotic platform motion of the proposed fuzzy control strategy. Wireless sensor-based remote contro...
Advanced Robotics requires robots with mobility, high level sensory control, wireless communication ...
In this paper, an inverse kinematics based control algorithm for the joystick control of the mobile ...
In this paper, an inverse kinematics based control algorithm for the joystick control of the mobile ...
This article presents the intelligent autonomous anthropomorphic wheeled mobile robotic platform mot...
The autonomous wheeled mobile robots are very interesting subject both in scientific research and pr...
The paper deals with the wireless sensor-based remote control of mobile robots motion in an unknown ...
This article presents strategy for navigation of a wheeled mobile robot in unstructured environments...
This paper presents sensor-based intelligent mobile robot navigation in unknown environments. The pa...
This article presents strategy for navigation of a wheeled mobile robot in unstructured environments...
This paper presents an ongoing effort to control a mobile robot in unstructured environment. Obstacl...
National audienceIn this paper a fuzzy control and an obstacle avoidance system, together with a dis...
Abstract — In this paper the navigation of a unicycle mobile robot is studiedIn the recent research,...
Abstract: In this article, researchhasbeencarriedouton thecontrol techniqueof anautonomous mobile ro...
In this paper, some fuzzy controls based on sensors applying to mobile robots for obstacle avoidance...
Mobile robots have been used widely in large number of intelligent based applications, where a rando...
Advanced Robotics requires robots with mobility, high level sensory control, wireless communication ...
In this paper, an inverse kinematics based control algorithm for the joystick control of the mobile ...
In this paper, an inverse kinematics based control algorithm for the joystick control of the mobile ...
This article presents the intelligent autonomous anthropomorphic wheeled mobile robotic platform mot...
The autonomous wheeled mobile robots are very interesting subject both in scientific research and pr...
The paper deals with the wireless sensor-based remote control of mobile robots motion in an unknown ...
This article presents strategy for navigation of a wheeled mobile robot in unstructured environments...
This paper presents sensor-based intelligent mobile robot navigation in unknown environments. The pa...
This article presents strategy for navigation of a wheeled mobile robot in unstructured environments...
This paper presents an ongoing effort to control a mobile robot in unstructured environment. Obstacl...
National audienceIn this paper a fuzzy control and an obstacle avoidance system, together with a dis...
Abstract — In this paper the navigation of a unicycle mobile robot is studiedIn the recent research,...
Abstract: In this article, researchhasbeencarriedouton thecontrol techniqueof anautonomous mobile ro...
In this paper, some fuzzy controls based on sensors applying to mobile robots for obstacle avoidance...
Mobile robots have been used widely in large number of intelligent based applications, where a rando...
Advanced Robotics requires robots with mobility, high level sensory control, wireless communication ...
In this paper, an inverse kinematics based control algorithm for the joystick control of the mobile ...
In this paper, an inverse kinematics based control algorithm for the joystick control of the mobile ...