Paul G. Griffiths scite author profile

This paper describes a paradigm for human/automation control sharing in which the automation acts through a motor coupled to a machine's manual control interface. The manual interface becomes a haptic display, continually informing the human about automation actions. While monitoring by feel, users may choose either to conform to the automation or override it and express their own control intentions. This paper's objective is to demonstrate that adding automation through haptic display can be used not only to improve performance on a primary task but also to reduce perceptual demands or free attention for a secondary task. Results are presented from three experiments in which 11 participants completed a lane-following task using a motorized steering wheel on a fixed-base driving simulator. The automation behaved like a copilot, assisting with lane following by applying torques to the steering wheel. Results indicate that haptic assist improves lane following by least 30%, p < .0001, while reducing visual demand by 29%, p < .0001, or improving reaction time in a secondary tone localization task by 18 ms, p = .0009. Potential applications of this research include the design of automation interfaces based on haptics that support human/automation control sharing better than traditional push-button automation interfaces.

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Shared control between human and machine: haptic display of automation during manual control of vehicle heading

Griffiths

Gillespie

2004

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Plugfest 2009: Global interoperability in Telerobotics and telemedicine

King

Hannaford

Kwok

et al. 2010

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Despite the great diversity of teleoperator designs and applications, their underlying control systems have many similarities. These similarities can be exploited to enable inter-operability between heterogeneous systems. We have developed a network data specification, the Interoperable Telerobotics Protocol, that can be used for Internet based control of a wide range of teleoperators.In this work we test interoperable telerobotics on the global Internet, focusing on the telesurgery application domain. Fourteen globally dispersed telerobotic master and slave systems were connected in thirty trials in one twenty four hour period. Users performed common manipulation tasks to demonstrate effective master-slave operation. With twenty eight (93%) successful, unique connections the results show a high potential for standardizing telerobotic operation. Furthermore, new paradigms for telesurgical operation and training are presented, including a networked surgery trainer and upper-limb exoskeleton control of micro-manipulators.

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Force Feedback and Sensory Substitution for Robot-Assisted Surgery

Okamura

Verner²,

Yamamoto³

et al. 2010

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A Fundamental Linear Systems Conflict Between Performance and Passivity in Haptic Rendering

2011

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A Fundamental Tradeoff between Performance and Sensitivity within Haptic Rendering

Griffiths

Gillespie²,

Freudenberg³

2007

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Abstract-In this paper we show that for haptic rendering using position feedback, the structure of the feedback loop imposes a fundamental tradeoff between accurate rendering of virtual environments and sensitivity of closed-loop responses to hardware variations and uncertainty. Due to this tradeoff, any feedback design that achieves high-fidelity rendering incurs a quantifiable cost in terms of sensitivity. Analysis of the tradeoff reveals certain combinations of virtual environment and haptic device dynamics for which performance is achieved only by accepting very poor sensitivity. This analysis may be used to show that certain design specifications are feasible and may guide the choice of hardware to mitigate the tradeoff severity. We illustrate the predicted consequences of the tradeoff with an experimental study.

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Characterizing Teleoperator Behavior for Feedback Design and Performance Analysis

Griffiths

Gillespie

2008

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A fundamental conflict between performance and passivity in haptic rendering

Griffiths

Gillespie

2008

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Paul G. Griffiths

Sharing Control Between Humans and Automation Using Haptic Interface: Primary and Secondary Task Performance Benefits

Shared control between human and machine: haptic display of automation during manual control of vehicle heading

Plugfest 2009: Global interoperability in Telerobotics and telemedicine

Force Feedback and Sensory Substitution for Robot-Assisted Surgery

A Fundamental Linear Systems Conflict Between Performance and Passivity in Haptic Rendering

A Fundamental Tradeoff between Performance and Sensitivity within Haptic Rendering

Characterizing Teleoperator Behavior for Feedback Design and Performance Analysis

A fundamental conflict between performance and passivity in haptic rendering

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