Abstract — Compliance in robot mounted force/torque sensors is useful for soft mating of parts. However it generates nearly undamped oscillations when moving the end-effector in free space. In this paper, input shaping control is investigated to damp such unwanted flexible modes. We present a new design technique that creates long impulse sequences to adapt input shaping to systems with long sampling period and to compensate the resulting time delay. This makes the method feasible for industrial robots. In addition to the conventional input shaping which causes oscillations to stop only after applying the last impulse, we also minimize the quadratic control error until this time step is reached. I
Many systems exist that contain coupled rigid body and flexible body dynamics. Rigid body reposition...
To achieve an exact motion that is following a reference position in a force controlled process, it ...
Input shaping provides a simple and effective method for vibration-free positioning of a load driven...
Input shaping is a method for controlling residual vibration in linear systems. Because input shapin...
Input shaping is an effective method of minimizing vibration in flexible systems. In particular in s...
© American Society of Mechanical EngineersThe original input shaping technique developed by Singer a...
The impedance shaping control with robot base dynamics compensation is presented in this paper. The ...
Input shaping can effectively reduce residual vibrations of flexible systems induced by the referenc...
The original input shaping technique, that was developed in earlier work, is summarized, and a diffe...
The impedance shaping control is presented in this paper, providing an extension of standard impedan...
Telerobotic arms with flexible dynamics can be challenging to operate. Deflections and oscillations ...
Abstract: This paper deals with control of flexible mechanical systems. The goal is to modify the in...
This paper presents the results of a series of experimental tests carried out on the Space Robot Sim...
Input shaping technique is widely used in reducing or eliminating residual vibration of flexible str...
©1997 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
Many systems exist that contain coupled rigid body and flexible body dynamics. Rigid body reposition...
To achieve an exact motion that is following a reference position in a force controlled process, it ...
Input shaping provides a simple and effective method for vibration-free positioning of a load driven...
Input shaping is a method for controlling residual vibration in linear systems. Because input shapin...
Input shaping is an effective method of minimizing vibration in flexible systems. In particular in s...
© American Society of Mechanical EngineersThe original input shaping technique developed by Singer a...
The impedance shaping control with robot base dynamics compensation is presented in this paper. The ...
Input shaping can effectively reduce residual vibrations of flexible systems induced by the referenc...
The original input shaping technique, that was developed in earlier work, is summarized, and a diffe...
The impedance shaping control is presented in this paper, providing an extension of standard impedan...
Telerobotic arms with flexible dynamics can be challenging to operate. Deflections and oscillations ...
Abstract: This paper deals with control of flexible mechanical systems. The goal is to modify the in...
This paper presents the results of a series of experimental tests carried out on the Space Robot Sim...
Input shaping technique is widely used in reducing or eliminating residual vibration of flexible str...
©1997 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
Many systems exist that contain coupled rigid body and flexible body dynamics. Rigid body reposition...
To achieve an exact motion that is following a reference position in a force controlled process, it ...
Input shaping provides a simple and effective method for vibration-free positioning of a load driven...