We found a match
Your institution may have access to this item. Find your institution then sign in to continue.
- Title
Performance Evaluation of the Newly Operational NDBC 2.1-m Hull.
- Authors
Hall, Candice; Jensen, Robert E.; Wang, David W.
- Abstract
The importance of quantifying the accuracy in wave measurements is critical to not only understand the complexities of wind-generated waves, but imperative for the interpretation of implied accuracy of the prediction systems that use these data for verification and validation. As wave measurement systems have unique collection and processing attributes that result in large accuracy ranges, this work quantifies bias that may be introduced into wave models from the newly operational NOAA National Data Buoy Center (NDBC) 2.1-m hull. Data quality consistency between the legacy NDBC 3-m aluminum hulls and the new 2.1-m hull is compared to a relative reference, and provides a standardized methodology and graphical representation template for future intrameasurement evaluations. Statistical analyses and wave spectral comparisons confirm that the wave measurements reported from the NDBC 2.1-m hulls show an increased accuracy from previously collected NDBC 3-m hull wave data for significant wave height and average wave period, while retaining consistent accuracy for directional results, purporting that hull size does not impact NDBC directional data estimates. Spectrally, the NDBC 2.1-m hulls show an improved signal-to-noise ratio, allowing for increase in energy retention in the lower-frequency spectral range, with an improved high-frequency spectral accuracy above 0.25 Hz within the short seas and wind chop wave component regions. These improvements in both NDBC bulk and spectral data accuracy provide confidence for the wave community's use of NDBC wave data to drive wave model technologies, improvements, and validations.
- Subjects
WIND waves; SIGNAL-to-noise ratio; WAVE analysis; DATA quality; SERVER farms (Computer network management)
- Publication
Journal of Atmospheric & Oceanic Technology, 2022, Vol 39, Issue 6, p861
- ISSN
0739-0572
- Publication type
Article
- DOI
10.1175/JTECH-D-21-0172.1