1 / 6

GCOOS HF Radar Gap Analysis Version 1.0, 27 June 2008

GCOOS HF Radar Gap Analysis Version 1.0, 27 June 2008. Key Authors Stephan Howden, USM Nick Shay, UM Ann Jochens, TAMU Consulted with GCOOS-RA Board of Directors Harvey Seim, SECOORA. All RA HFR Gap Analyses available at http://www.usnfra.org/committees.html.

trish
Download Presentation

GCOOS HF Radar Gap Analysis Version 1.0, 27 June 2008

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. GCOOS HF Radar Gap AnalysisVersion 1.0, 27 June 2008 • Key Authors • Stephan Howden, USM • Nick Shay, UM • Ann Jochens, TAMU • Consulted with • GCOOS-RA Board of Directors • Harvey Seim, SECOORA All RA HFR Gap Analyses available at http://www.usnfra.org/committees.html

  2. GCOOS Network of HF Radar Observing Systems for Surface Currents and Waves • Continue operations of the existing operational High Frequency Radar (HFR) network (6 units) in the GCOOS region; • Determine the status of units that once were operational and whether such units can be incorporated into the GCOOS HFR network; • Develop a more complete understanding of quality control and quality assurance issues for different HFR systems and how to ensure compatibility and ability to combine measurements from different HFR systems; and • Develop for the Gulf a plan for choosing particular HFR station types, operating frequencies, locations, and infrastructure plans for each site.

  3. Gaps • Long-Range (>75 km range) HFR: • No operational long-range HFR stations from Brownsville, TX, to Gulfport, MS (approximately 750 mi). • USM 's long-range HFR stations cover the region from Gulfport, MS, to Destin, FL. • Another gap exists from Destin, FL, to Redington Shores, FL (approximately 450 mi). • USF's long-range HFR stations cover the region from Redington Shores to Naples, FL. • The region between Naples, FL, down to the Keys (~ 250 mi) and over into the Miami, FL, area is the last GCOOS gap. • Short- and Medium-Range HFR: There is insufficient funding to cover the entire Gulf Coast with these radars; only selected areas.

  4. Priorities for HFR Network • Cover the US Gulf Coast by long-distance (>75 km) radar systems with overlapping coverage sufficient to estimate 2-D surface current fields in these regions. • Install HFR equipment that can also measure directional wave information where affordable • Nest higher frequency radar systems within selected regions for higher spatial and temporal resolution systems is to cover regions with substantial ship and boat traffic. • 6 NOAA Physical Oceanographic Real-Time System (PORTS) • Houston/Galveston, TX, • Sabine Neches, TX, • Gulfport, MS, • Pascagoula, MS, • Tampa Bay, FL • Southwest Pass of the Mississippi River • Corpus Christi, TX • Miami, FL • Conduct pilot project to determine how to combine data from different HF radars into a Gulf coastal surface current map

  5. 36 HF Radar Sites

  6. Location and Year of Deployment

More Related