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California State University, Maritime Academy

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$26,035
Total funding
1
Grants

Funding mix

By agency

NASA$26,035 · 1

By mechanism

$26,035 · 1

Investigators at California State University, Maritime Academy

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

Not enough data

Emerging Leaders

6–10 yrs in

Not enough data

All-Time

Most funded here, all years

Not enough data

Largest grants

IT HAS LONG BEEN KNOWN THAT MORE EXPERIMENTAL DATA IS NECESSARY TO TUNE THE WHITECAP REFLECTANCE MODEL USED TO PROCESS OCEAN COLOR IMAGERY. ACCURATE MEASUREMENTS OF WHITECAPS ARE DIFFICULT TO CAPTURE THEREFORE NO COMPREHENSIVE DATASETS OF THE REFLECTANCE OF NATURALLY BREAKING WAVES UNDER A WIDE RANGE OF FORCING CONDITIONS EXISTS TO ADEQUATELY ASSESS THE CONTRIBUTION OF FOAM AND BUBBLES TO OCEAN COLOR IMAGERY. THE PROPOSED RESEARCH WILL: 1) PROVIDE A HIGHLY ACCURATE STATISTICALLY ROBUST DATASET OF HYPERSPECTRAL REFLECTANCE MEASUREMENTS OF BREAKING WAVES DURING A WIDE RANGE OF WELL-CHARACTERIZED PHYSICAL FORCING CONDITIONS. THESE MEASUREMENTS CAN BE USED TO IDENTIFY SPECTRAL DIFFERENCES BETWEEN WHITECAPS AND AEROSOLS 2) QUANTIFY UNCERTAINTY AND SOURCES OF ERROR IN THE CURRENT WHITECAP CORRECTION APPROACH FROM THE USE OF A WHITECAP EFFECTIVE REFLECTANCE ESTIMATED FROM A SMALL NUMBER OF INDIVIDUAL WHITECAPS AND BREAKING WAVES IN THE SURF ZONE AND THE WIND SPEED WHITECAP COVERAGE RELATIONSHIP 3) PROVIDE AN IMPROVED WHITECAP CORRECTION APPROACH USING AN ESTIMATE OF HYPERSPECTRAL [PWC]N FOR 350-1100 NM MEASURED DIRECTLY AS A FUNCTION PHYSICAL FORCING CONDITIONS (E.G. WIND SPEED WIND FRICTION VELOCITY ETC.) ELIMINATING THE USE OF THE EFFECTIVE REFLECTANCE AND 7 FRACTIONAL COVERAGE OF WHITECAPS ESTIMATED USING WIND SPEED. FURTHERMORE BECAUSE WHITECAPS ARE A PART OF THE SIGNAL MEASURED BY OCEAN COLOR SENSORS OCEAN COLOR DATA COULD BE USED TO ESTIMATE UPPER OCEAN PHYSICAL PROCESSES. THE RELATIONSHIP BETWEEN HYPERSPECTRAL REFLECTANCE AND TKE DISSIPATION RATES AT THE SURFACE BUBBLE SIZE DISTRIBUTIONS AND VOID FRACTION WILL BE INVESTIGATED ILLUSTRATING THE POTENTIAL FOR EXPANDING THE ROLE OF OCEAN COLOR INTO ASSESSMENTS OF THE AIR-SEA FLUX AND THE ROLE OF WAVE BREAKING IN TURBULENT KINETIC ENERGY EXCHANGE.$26,035
· FY2021 · National Aeronautics and Space Administration
California State University, Maritime Academy · GrantIndex