2002
DOI: 10.1109/70.988969
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Time-domain passivity control of haptic interfaces

Abstract: A patent-pending, energy-based method is presented for controlling a haptic interface system to ensure stable contact under a wide variety of operating conditions. System stability is analyzed in terms of the time-domain definition of passivity. We define a "Passivity Observer" (PO) which measures energy flow in and out of one or more subsystems in real-time software. Active behavior is indicated by a negative value of the PO at any time. We also define the "Passivity Controller" (PC), an adaptive dissipative … Show more

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Cited by 647 publications
(191 citation statements)
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“…For bilateral coupling, this state can be evaluated by the sufficient condition of passivity: the ability of a system to not add energy in the loop. 29 The transparency can be defined as the degrees of reliability and latency of the transmission, measured by the frequency bandwidth of the system. It is important to note that human temporal frequency bandwidth is estimated up to 1 kHz for force perception and over 10 kHz for textures.…”
Section: B a Dexterous User Interaction For Micromanipulationmentioning
confidence: 99%
“…For bilateral coupling, this state can be evaluated by the sufficient condition of passivity: the ability of a system to not add energy in the loop. 29 The transparency can be defined as the degrees of reliability and latency of the transmission, measured by the frequency bandwidth of the system. It is important to note that human temporal frequency bandwidth is estimated up to 1 kHz for force perception and over 10 kHz for textures.…”
Section: B a Dexterous User Interaction For Micromanipulationmentioning
confidence: 99%
“…(9) may look like friction compensation, the algorithm makes no attempt to model friction. Our method has been inspired by passivity-based approaches for haptic devices [27] and we borrow the idea of a "passivity" observer to measure the flow of power in and out of the system.…”
Section: Limit Cycle Compensation For Wipsmentioning
confidence: 99%
“…These requirements determine the maximum stiffness and performance that the haptic device can reach. Considerable research effort has been invested to analyze control strategies and increase device performance, such as virtual coupling, passivity observer, port‐Hamiltonian system, wave variable method …”
Section: Introductionmentioning
confidence: 99%