Adam Mirvis scite author profile

Adam Mirvis

5Publications

7Citation Statements Received

23Citation Statements Given

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Affiliations

University of Maryland, College Park

Publications

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A Dynamics-Based Fidelity Assessment of Partial Gravity Gait Simulation Using Underwater Body Segment Ballasting

Mirvis

2011

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In-water testing is frequently used to simulate reduced gravity for quasi-static tasks.For dynamic motions, however, the assumption has been that drag effects invalidate any data, and in-water testing has been dismissed in favor of complex and restrictive techniques such as counterweight suspension and parabolic flight. In this study, motion-capture was used to estimate treadmill gait metrics for three environments:underwater and ballasted to 1 g and to 1/6th g, and on dry land at 1 g. Ballast was distributed anthropometrically. Motion-capture results were compared with those for a simulated dynamic walker/runner, and used to assess the effect of the in-water environment on simulation fidelity. For each test case, the model was tuned to the subject's anthropometry, and stride length, pendulum frequency, and hip displacement were computed. In-water environmental effects were found to be sufficiently quantifiable to justify using in-water testing, under certain conditions, to study partial-gravity gait dynamics.

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Minimum Functionality Lunar Habitat Element Design: Requirements and Definition of an Initial Human Establishment on the Moon

Capua¹,

Mirvis²,

Medina³

et al. 2009

SAE Int. J. Aerosp.

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Incorporating Advanced Controls, Displays and other Smart Elements into Space Suit Design

Jacobs¹,

Capua²,

Husain³

et al. 2009

SAE Int. J. Aerosp.

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ECLIPSE: Design of a Minimum Functional Habitat for Initial Lunar Exploration

Akin

DiCapua

Mirvis

et al. 2009

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The "Moonyard'' - Developing a Mixed-Reality Approach to Planetary Surface Simulation

Capua

Mirvis

Akin

2010

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Adam Mirvis

A Dynamics-Based Fidelity Assessment of Partial Gravity Gait Simulation Using Underwater Body Segment Ballasting

Minimum Functionality Lunar Habitat Element Design: Requirements and Definition of an Initial Human Establishment on the Moon

Incorporating Advanced Controls, Displays and other Smart Elements into Space Suit Design

ECLIPSE: Design of a Minimum Functional Habitat for Initial Lunar Exploration

The "Moonyard'' - Developing a Mixed-Reality Approach to Planetary Surface Simulation

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