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Imsg Laboratories Inc

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$96,726
Total funding
1
Grants

Funding mix

By agency

NASA$96,726 · 1

By mechanism

$96,726 · 1

Investigators at Imsg Laboratories Inc

InvestigatorsiAttributed = a PI's even-split share of each grant — a $1M grant with 2 PIs counts $500K each.
Exposure= the full size of every grant they're on ($1M each).

Rising Stars

First grant in the last 5 yrs

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Emerging Leaders

6–10 yrs in

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All-Time

Most funded here, all years

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Largest grants

LONG DURATION SPACE EXPLORATION MISSIONS CAUSE ASTRONAUTS TO EXPERIENCE PHYSIOLOGICAL DECONDITIONING INCLUDING BONE LOSS MUSCLE ATROPHY CARDIOVASCULAR DECONDITIONING SENSORIMOTOR/BALANCE IMPAIRMENT AND VISION CHANGES. FOR A CREWED MARS MISSION WHERE MICROGRAVITY AND REDUCED GRAVITY (E.G. 0.38 G ON THE MARTIAN SURFACE) EXPOSURE MAY OCCUR FOR 2+ YEARS DECONDITIONING IMPACTS THE ASTRONAUTS HEALTH WELL-BEING EFFECTIVENESS AND SAFETY. HERE WE PROPOSE A NOVEL LINEAR ARTIFICIAL GRAVITY (AG) TECHNOLOGY DESIGNED TO COUNTERACT THESE DELETERIOUS EFFECTS ON THE ASTRONAUTS. PREVIOUS CENTRIFUGE AG SYSTEMS HAVE NEGATIVE IMPACTS DUE TO THE CONSTANT ROTATING ENVIRONMENT: 1) CORIOLIS FORCES WHICH MAY BE CONFUSING AND LIMIT CONCURRENT EXERCISE OR LEAD TO INJURY 2) VESTIBULAR CROSSCOUPLING ILLUSIONS WHICH ARE HIGHLY PROVOCATIVE AND CAUSE MOTION SICKNESS AND 3) GRAVITY GRADIENTS WHERE THE LOADING VARYING ALONG THE LENGTH OF THE ASTRONAUTS BODY. ALTERNATIVELY OUR LINEAR AG TECHNOLOGY (TERMED TURBOLIFT ) SUFFERS FROM NONE OF THESE CONFOUNDING PROBLEMS PARTICULARLY DURING THE ACCELERATION/DECELERATION LOADING PHASES. BRIEFLY THE CONCEPTUAL PARADIGM IS AS FOLLOWS: THE ASTRONAUT IS LINEARLY ACCELERATED AT 1G FOR ~1S THEN IS ROTATED 180 DEGREES TO PREPARE FOR A 1G DECELERATION FOR ~1S. THIS PROCESS IS REPEATED TO CREATE INTERMITTENT AG WHERE THE FORCE IS ALWAYS HEADWARD SIMILAR TO STANDING HERE ON EARTH. THE EXPERIENCE IS LIKELY TO BE ANALOGOUS TO BOUNCING MILDLY ON A TRAMPOLINE. THE INTERMITTENT LOADING IS INTENDED TO REDUCE OR ELIMINATE THE PHYSIOLOGICAL DECONDITIONING IN A COMPREHENSIVE MULTI-SYSTEM MANNER. TO EVALUATE THE LINEAR AG TECHNOLOGY WE AIM TO PERFORM AN ENGINEERING DESIGN ANALYSIS TO QUANTIFY THE REQUIRED SIZE AND MASS OF THE SYSTEM. WE ALSO AIM TO DESIGN A SCALE MODEL OF THE SYSTEM TO TEST ITS FEASIBILITY SUCH THAT IT CAN BE PROPERLY EVALUATED AS COUNTERMEASURE SYSTEM TO ENABLE LONG DURATION CREWED EXPLORATION MISSIONS.$96,726
· FY2017 · National Aeronautics and Space Administration