Add to ORKGPublished Conference ProceedingsThis paper discusses the practical implementation of a flatness based control for a flexible joint robot arm. Using differential flatness theory, reference trajectories are generated for a flexible joint robot and then a tracking controller is implemented. The vibrations experienced by the robot arm are sufficiently damped and nonminimum phase behaviour is eliminated. The control shows fast transcient response as desired for flexible robots. Experimental results proves the effectiveness of the flatness based control approach
This paper deals with an application of the differential algebraic flatness approach to hydraulic dr...
Published ArticleA new approach to tracking control of industrial robot manipulators is presented in...
This paper deals with an application of the differential algebraic flatness approach to hydraulic dr...
In this thesis we study the control of two link light weight elastic manipulator in the presence of ...
The main goal is to develop a general theory for the control of flexible robots, including flexible ...
This thesis presents several algorithms used to control a very flexible robot in gravity. The flexib...
To appear in J. of the Society of Instrument and Control Engineers, Japan, Vol. 32, No.4, April 1993...
Abstract: A new method is proposed for the end-effector trajectory tracking control of flexi-ble rob...
Almost all industrial robots exhibit joint flexibility due to mechanical compliance of their gear bo...
This paper presents modeling and sophisticated control of a single Degree Of Freedom (DOF) flexible ...
This paper presents modeling and sophisticated control of a single Degree Of Freedom (DOF) flexible ...
In most robot applications, the control of the manipulator’s end-effector along a specified desired ...
Published ArticleThis paper focuses on the synchronizing control of multiple interconnected flexible...
Published ArticleThis paper focuses on the synchronizing control of multiple interconnected flexible...
This paper deals with an application of the differential algebraic flatness approach to hydraulic dr...
This paper deals with an application of the differential algebraic flatness approach to hydraulic dr...
Published ArticleA new approach to tracking control of industrial robot manipulators is presented in...
This paper deals with an application of the differential algebraic flatness approach to hydraulic dr...
In this thesis we study the control of two link light weight elastic manipulator in the presence of ...
The main goal is to develop a general theory for the control of flexible robots, including flexible ...
This thesis presents several algorithms used to control a very flexible robot in gravity. The flexib...
To appear in J. of the Society of Instrument and Control Engineers, Japan, Vol. 32, No.4, April 1993...
Abstract: A new method is proposed for the end-effector trajectory tracking control of flexi-ble rob...
Almost all industrial robots exhibit joint flexibility due to mechanical compliance of their gear bo...
This paper presents modeling and sophisticated control of a single Degree Of Freedom (DOF) flexible ...
This paper presents modeling and sophisticated control of a single Degree Of Freedom (DOF) flexible ...
In most robot applications, the control of the manipulator’s end-effector along a specified desired ...
Published ArticleThis paper focuses on the synchronizing control of multiple interconnected flexible...
Published ArticleThis paper focuses on the synchronizing control of multiple interconnected flexible...
This paper deals with an application of the differential algebraic flatness approach to hydraulic dr...
This paper deals with an application of the differential algebraic flatness approach to hydraulic dr...
Published ArticleA new approach to tracking control of industrial robot manipulators is presented in...
This paper deals with an application of the differential algebraic flatness approach to hydraulic dr...