sedna-20230828T0000

The proposed study will use broadband deep-water ambient sound field information collected by stationary and mobile (Slocum glider reconnaissance flights) passive acoustic monitoring platforms during a major hurricane passage to reconstruct the storm wind speed distributions and to quantify changes in oceanographic and acoustic environments during storms. Based on the newly collected data and Bayesian inversion technique, a range dependent surface source model relevant to hurricane conditions and the frequency-dependent sound attenuation model due to bubble clouds in the high-wind environment will be developed. In the future, underwater reconnaissance could provide a safe and cost-efficient addition or alternative to the expensive and risky NOAA reconnaissance flights into the hurricane eye

Data and Resources

Metadata Date

2024-07-03

Metadata Tags

GCMD Keywords

CF Standard Names

Online Access

OPeNDAP (DAP Client Access)

These data are available for access with an OPeNDAP client

ERDDAP (DAP Client Access)

These data are available for access with an ERDDAP client
Distribution Formats
  • OPeNDAP (Version: DAP/2.0 )
Distributor University of Louisiana at Lafayette
Point of Contact Bob Currier
University of Louisiana at Lafayette
bob.currier@gcoos.org
Background Information (Background information from the source)
Originator Bob Currier
University of Louisiana at Lafayette
bob.currier@gcoos.org
Background Information (Background information from the source)
contributor Sidorovskaia N, Mathews N, Currier R
Dataset Point of Contact Axiom Docker Install
Axiom Docker Install
555-555-5555
nobody@example.com
General Documentation
Associated Documentation Glider's Deepwater Hurricane Reconnaissance in the Gulf of Mexico
Date(s) creation: 2023-10-09
issued: 2023-10-09
creation: 2023-10-09
issued: 2023-10-09
creation: 2023-10-09
issued: 2023-10-09
creation: 2023-10-09
issued: 2023-10-09
Use Limitations This data may be redistributed and used without restriction. Data provided as is with no expressed or implied assurance of quality assurance or quality control
Time Period 2023-08-28T15:41:20Z to 2023-10-09T11:37:10Z
Spatial Bounding Box Coordinates N: 28.981586° S: 28.478214° E: -88.08935° W: -88.62523°
Theme keywords Uncategorized
  • glider
  • Slocum
  • Spray
  • trajectory
  • underwater glider
  • water
  • wmo

GCMD Science Keywords
  • In Situ Ocean-based platforms > Seaglider
  • Earth Science > Oceans > Salinity/Density > Salinity
  • Earth Science > Oceans > Salinity/Density > Density
  • Earth Science > Oceans > Salinity/Density > Conductivity
  • Earth Science > Oceans > Ocean Temperature > Water Temperature
  • Earth Science > Oceans > Ocean Pressure > Water Pressure
  • AUVS > Autonomous Underwater Vehicles

CF Standard Name Table v27
  • time
  • latitude
  • longitude
  • depth
  • sea_water_electrical_conductivity
  • sea_water_density
  • latitude
  • longitude
  • time
  • sea_water_pressure
  • sea_water_practical_salinity
  • sea_water_temperature
Project keywords Uncategorized
  • Glider's Deepwater Hurricane Reconnaissance in the Gulf of Mexico
Use Constraints This data may be redistributed and used without restriction. Data provided as is with no expressed or implied assurance of quality assurance or quality control
Lineage Statement 2023-10-09T14:38:11Z: /tmp/tmpa7taxe9b/sedna-20231009T113736Z-sbd-profilelbfp746q.nc created 2023-10-09T14:38:11Z: ./dba_to_ngdac_profile_nc.py /data/gandalf/deployments/louisiana/sedna/processed_data/dba/merged/0000219.dba
Platforms
platform In Situ Ocean-based Platforms > AUVS > Autonomous Underwater Vehicles
platform_vocabulary NASA/GCMD Platforms Keywords Version 8.5
Ingestion Attributes
gts_ingest true
Instrument Attributes
Attribution Information
contributor_name Sidorovskaia N, Mathews N, Currier R
creator_url http://physics.louisiana.edu
infoUrl https://gliders.ioos.us/erddap/
CF related
standard_name_vocabulary CF Standard Name Table v27