This paper presents a modeling and analysis method for the motion planning and control of mobile robot systems in a hybrid fashion. Robotic systems obtain environmental information from perceptive sensors and respond to the perceptions to execute the task through decision and control process. The hybrid perceptive model of the robotic system has one continuous and two discrete layers, and it also has continuous and discrete perceptive references. The discrete layers enable the robot system to plan and modify original path through switching. Stability can be guaranteed in switching. The hybrid perceptive references can not be stopped by blocking the continuous reference, including obstacles. The model is verified by experiments
In recent years, the interest in research on robots has increased extensively; mainly due to avoid h...
Generally mobile robots are equipped with several kinds of sensors for locomotion, environmental det...
Autonomous robot systems operating in an uncertain environment pose many challenges to their control...
This paper presents a modeling and analysis method for the motion planning and control of mobile rob...
This paper presents a hybrid automata approach for modeling and analyzing the robotic motion plannin...
Conventional methods are particularly difficult to control wheeled mobile robot because the control ...
Abstract: The problem of designing behaviours for mobile robots employed in an active surveillance s...
In this paper, a formal hybrid model is used for both the controller design and hardware description...
© 2003 IEEE. This paper presents an event-based hybrid system approach for the motion planning and c...
This paper first discusses two strategies for controlling robot motions: planning under pre-describe...
A hybrid control method for telerobotic systems which considers simultaneously the control and decis...
This paper presents an approach to the control of a formation of autonomous robots using a perceptiv...
A method based on hybrid control theory for modeling and control of teleoperated manipulator system ...
This paper introduces a new hybrid control architecture for solving the navigation problem of mobile...
In this paper we put forward a framework that integrates features of reactive planning models with m...
In recent years, the interest in research on robots has increased extensively; mainly due to avoid h...
Generally mobile robots are equipped with several kinds of sensors for locomotion, environmental det...
Autonomous robot systems operating in an uncertain environment pose many challenges to their control...
This paper presents a modeling and analysis method for the motion planning and control of mobile rob...
This paper presents a hybrid automata approach for modeling and analyzing the robotic motion plannin...
Conventional methods are particularly difficult to control wheeled mobile robot because the control ...
Abstract: The problem of designing behaviours for mobile robots employed in an active surveillance s...
In this paper, a formal hybrid model is used for both the controller design and hardware description...
© 2003 IEEE. This paper presents an event-based hybrid system approach for the motion planning and c...
This paper first discusses two strategies for controlling robot motions: planning under pre-describe...
A hybrid control method for telerobotic systems which considers simultaneously the control and decis...
This paper presents an approach to the control of a formation of autonomous robots using a perceptiv...
A method based on hybrid control theory for modeling and control of teleoperated manipulator system ...
This paper introduces a new hybrid control architecture for solving the navigation problem of mobile...
In this paper we put forward a framework that integrates features of reactive planning models with m...
In recent years, the interest in research on robots has increased extensively; mainly due to avoid h...
Generally mobile robots are equipped with several kinds of sensors for locomotion, environmental det...
Autonomous robot systems operating in an uncertain environment pose many challenges to their control...