Journal ArticleDOI
A theoretical and experimental investigation of impact control for manipulators
Richard Volpe,Pradeep K. Khosla +1 more
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It is shown that negative proportional force gains, or impedance mass ratios less than unity, can equivalently provide excel lent impact response without bouncing.Abstract:
This article describes a simple control strategy for stable hardon-hard contact of a manipulator with the environment. The strategy is motivated by recognition of the equivalence of proportional gain explicit force control and impedance control. It is shown that negative proportional force gains, or impedance mass ratios less than unity, can equivalently provide excellent impact response without bouncing. This result is indicated by an analysis performed with an experimentally determined arm/sensor/environment model. The results are corroborated by experimental data from implementation of the control algorithms on the CMU DD Arm II system. The results confirm that manipulator impact against a stiff environment without bouncing can be readily handled by this novel control strategy.read more
Citations
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Journal ArticleDOI
A theoretical and experimental investigation of explicit force control strategies for manipulators
Richard Volpe,Pradeep K. Khosla +1 more
TL;DR: A conclusive demonstration for the first time that integral gain control is the best basic strategy for force control of manipulators and the concept of a novel second order low pass filter controller is presented.
Journal ArticleDOI
Quantitative Safety Guarantees for Physical Human-Robot Interaction
TL;DR: A control scheme for robot manipulators is proposed that restricts the torque commands of a position control algorithm to values that comply to preset safety restrictions and limits the potential impact force of the robot in the case of a collision with a person.
Proceedings ArticleDOI
Force control of robot manipulators
TL;DR: The state of the art of force control for robot manipulators is surveyed and an overview and a unified description of the two major approaches to force control are presented.
Journal ArticleDOI
On the control of finite-dimensional mechanical systems with unilateral constraints
TL;DR: The problem of the control of a class of mechanical systems with a finite number of degrees-of-freedom, subject to unilateral constraints on the position is discussed, and various switching control strategies are analyzed.
Journal ArticleDOI
Force regulation and contact transition control
TL;DR: In this article, a sensor-referenced control method using positive acceleration feedback together with a switching control strategy is developed for robot impact control and force regulation, where the robot dynamic model is feedback-linearized and decoupled for the free-motion mode, the phase-transition mode, and the constrained motion mode.
References
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Journal ArticleDOI
Impedance Control: An Approach to Manipulation: Part I—Theory
TL;DR: It is shown that components of the manipulator impedance may be combined by superposition even when they are nonlinear, and a generalization of a Norton equivalent network is defined for a broad class of nonlinear manipulators which separates the control of motion from theControl of impedance while preserving the superposition properties of the Norton network.
Proceedings ArticleDOI
Impedance Control: An Approach to Manipulation
TL;DR: In this paper, a unified approach to kinematically constrained motion, dynamic interaction, target acquisition and obstacle avoidance is presented, which results in a unified control of manipulator behaviour.
Journal ArticleDOI
Hybrid position/force control of manipulators
M. H. Raibert,J. J. Craig +1 more
TL;DR: A new conceptually simple approach to controlling compliant motions of a robot manipulator that combines force and torque information with positional data to satisfy simultaneous position and force trajectory constraints specified in a convenient task related coordinate system is presented.
Proceedings ArticleDOI
Active stiffness control of a manipulator in cartesian coordinates
TL;DR: In this article, a method of actively controlling the apparent stiffness of a manipulator end effecter is presented, which allows the programmer to specify the three transnational and three rotational stiffness properties of a frame located arbitrarily in hand coordinates.
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A theoretical and experimental investigation of explicit force control strategies for manipulators
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