Time-domain passivity control of haptic interfaces

Hannaford, Blake; Ryu, Jee-Hwan

doi:10.1109/70.988969

Cited by 644 publications

(191 citation statements)

References 15 publications

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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%

Invited Article: A review of haptic optical tweezers for an interactive microworld exploration

Pacoret

Régnier²

2013

Review of Scientific Instruments

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This paper is the first review of haptic optical tweezers, a new technique which associates force feedback teleoperation with optical tweezers. This technique allows users to explore the microworld by sensing and exerting picoNewton-scale forces with trapped microspheres. Haptic optical tweezers also allow improved dexterity of micromanipulation and micro-assembly. One of the challenges of this technique is to sense and magnify picoNewton-scale forces by a factor of 10(12) to enable human operators to perceive interactions that they have never experienced before, such as adhesion phenomena, extremely low inertia, and high frequency dynamics of extremely small objects. The design of optical tweezers for high quality haptic feedback is challenging, given the requirements for very high sensitivity and dynamic stability. The concept, design process, and specification of optical tweezers reviewed here are focused on those intended for haptic teleoperation. In this paper, two new specific designs as well as the current state-of-the-art are presented. Moreover, the remaining important issues are identified for further developments. The initial results obtained are promising and demonstrate that optical tweezers have a significant potential for haptic exploration of the microworld. Haptic optical tweezers will become an invaluable tool for force feedback micromanipulation of biological samples and nano- and micro-assembly parts.

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Section: B a Dexterous User Interaction For Micromanipulationmentioning

confidence: 99%

Invited Article: A review of haptic optical tweezers for an interactive microworld exploration

Pacoret

Régnier²

2013

Review of Scientific Instruments

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“…(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%

Design for Control of Wheeled Inverted Pendulum Platforms

Vasudevan

Dollar

Morrell

2015

Journal of Mechanisms and Robotics

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In this paper, we study five aspects of design for wheeled inverted pendulum (WIP) platforms with the aim of understanding the effect of design choices on the balancing performance. First, we demonstrate analytically and experimentally the effect of soft visco-elastic tires on a WIP showing that the use of soft tires enhances balancing performance. Next, we study the effect of pitch rate and wheel velocity filters on WIP performance and make suggestions for design of filters. We then describe a self-tuning limit cycle compensation algorithm and experimentally verify its operation. Subsequently, we present an analytical simulation to study the effects of torque and velocity control of WIP motors and describe the tradeoffs between the control methodologies in various application scenarios. Finally, to understand if motor gearing can be an efficient alternative to bigger and more expensive direct drive motors, we analyze the effect of motor gearing on WIP dynamics. Our aim is to describe electromechanical design tradeoffs appropriately, so a WIP can be designed and constructed with minimal iterative experimentation.

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“…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%