A symbolic-based motion control method for wheeled mobile robots is put forward in this paper. Wheeled mobile robots, which are characterized by the nonholonomic constraints, are particularly difficult to control since real environment may be full of obstacles. Traditional methods have to resort to analysis and design at the level of individual sensors and actuators. As a result, the richness of the set of mappings from sensor to actuator signals constitutes a great challenge in determining a suitable control law to steer the wheeled mobile robot. In view of those considerations, a symbolic-based control method is presented, in which control procedures have a natural, linguistic flavor. In this method, different control procedures can be ge...
This paper proposes a novel trajectory tracking control approach for nonholonomic wheeled mobile rob...
One main issue for mobile robots is their capacity to go from one point to another autonomously, wit...
This paper describes our latest efforts to extend the Symbolic and Sub-symbolic Robotics Intelligenc...
A symbolic-based motion control method for wheeled mobile robots is put forward in this paper. Wheel...
A linguistic control method based on motion description languages for posture stabilization of wheel...
(c) 2007 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
Approaches to robot motion planning and control that involve tools such as automata, languages, temp...
This paper addresses the problem of posture stabilization for a wheeled mobile robot with nonholonom...
(c) 2001 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
Mobile robots are complex systems that combine mechanical elements such as wheels and gears, electro...
Mobile robots are complex systems that combine mechanical elements such as wheels and gears, electro...
There are many kinds of robots and among them the wheeled mobile robots (WMR) stand out, because the...
International audienceThis chapter may be seen as a follow up to Chap. ??, devoted to the classifica...
We propose a generic scheme to solve the kinematic con-trol problem of wheeled mobile manipulators w...
Abstract—In this paper, we propose a fuzzy logic controller for the motion control of a wheeled mobi...
This paper proposes a novel trajectory tracking control approach for nonholonomic wheeled mobile rob...
One main issue for mobile robots is their capacity to go from one point to another autonomously, wit...
This paper describes our latest efforts to extend the Symbolic and Sub-symbolic Robotics Intelligenc...
A symbolic-based motion control method for wheeled mobile robots is put forward in this paper. Wheel...
A linguistic control method based on motion description languages for posture stabilization of wheel...
(c) 2007 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
Approaches to robot motion planning and control that involve tools such as automata, languages, temp...
This paper addresses the problem of posture stabilization for a wheeled mobile robot with nonholonom...
(c) 2001 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for...
Mobile robots are complex systems that combine mechanical elements such as wheels and gears, electro...
Mobile robots are complex systems that combine mechanical elements such as wheels and gears, electro...
There are many kinds of robots and among them the wheeled mobile robots (WMR) stand out, because the...
International audienceThis chapter may be seen as a follow up to Chap. ??, devoted to the classifica...
We propose a generic scheme to solve the kinematic con-trol problem of wheeled mobile manipulators w...
Abstract—In this paper, we propose a fuzzy logic controller for the motion control of a wheeled mobi...
This paper proposes a novel trajectory tracking control approach for nonholonomic wheeled mobile rob...
One main issue for mobile robots is their capacity to go from one point to another autonomously, wit...
This paper describes our latest efforts to extend the Symbolic and Sub-symbolic Robotics Intelligenc...