Surface ocean velocities estimated from HF-Radar (HFR) are representative of the upper 0.3 - 2.5 meters of the ocean. The main objective of near-real time processing is to produce the best product from available data at the time of processing. Radial velocity measurements are obtained from individual radar sites through the U.S. HF-Radar Network. Hourly radial data are processed by unweighted least-squares on a 1 km resolution grid of Hawaii to produce near real-time surface current maps.

Surface ocean velocities estimated from HF-Radar (HFR) are representative of the upper 0.3 - 2.5 meters of the ocean. The main objective of near-real time processing is to produce the best product from available data at the time of processing. Radial velocity measurements are obtained from individual radar sites through the U.S. HF-Radar Network. Hourly radial data are processed by unweighted least-squares on a 6 km resolution grid of Hawaii to produce near real-time surface current maps.

Wave buoy 202 measures wave height, wave direction, wave period, and water temperature in the vicinity of Hanalei on the North Shore of Kauai in the State of Hawaii. Data are transmitted every half hour. Moored in water 244 meters deep, this Datawell Directional Waverider Mark III (DWR-MkIII) buoy is equipped with three accelerometers measuring north/south, east/west, and vertical displacements, allowing it to measure both wave direction and wave energy. The temperature sensor is located at the base of the 0.9 meter spherical buoy, approximately 45 cm or 18 inches below the ocean surface. Wave buoys are useful tools for forecasting local waves and are used by recreational and professional ocean users alike.

Wave buoy 239 measures wave height, wave direction, wave period, and water temperature approximately 4 km (2.5 mi) southwest of Kaumalapau Harbor on the leeward (western) coast of Lanai in the State of Hawaii. Data are transmitted every half hour. Moored in water 239 meters deep, this Datawell Directional Waverider Mark III (DWR-MkIII) buoy is equipped with three accelerometers measuring north/south, east/west, and vertical displacements, allowing it to measure both wave direction and wave energy. The temperature sensor is located at the base of the 0.9 meter spherical buoy, approximately 45 cm or 18 inches below the ocean surface. Wave buoys are useful tools for forecasting local waves and are used by recreational and professional ocean users alike. For historical wave observations at a nearby location, please visit the archive of the Kaumalapau wave buoy (cdip146) that operated between May 17, 2007 and May 3, 2017. The historical buoy location experienced significant damage during vessel strikes and was replaced by wave buoy 239 in a less frequented area to help avoid future collisions.

Wave buoy 198 measures wave height, wave direction, wave period, and water temperature in the vicinity of Kaneohe Bay on the windward (eastern) coast of Oahu in the State of Hawaii. Data are transmitted every half hour. Moored in water 81 meters deep, this Datawell Directional Waverider Mark III (DWR-MkIII) buoy is equipped with three accelerometers measuring north/south, east/west, and vertical displacements, allowing it to measure both wave direction and wave energy. The temperature sensor is located at the base of the 0.9 meter spherical buoy, approximately 45 cm or 18 inches below the ocean surface. Wave buoys are useful tools for forecasting local waves and are used by recreational and professional ocean users alike.

Wave buoy 187 measures wave height, wave direction, wave period, and water temperature in the vicinity of Pauwela and Kahului on the North Shore of Maui in the State of Hawaii. Data are transmitted every half hour. Moored in water 193 meters deep, this Datawell Directional Waverider Mark III (DWR-MkIII) buoy is equipped with three accelerometers measuring north/south, east/west, and vertical displacements, allowing it to measure both wave direction and wave energy. The temperature sensor is located at the base of the 0.9 meter spherical buoy, approximately 45 cm or 18 inches below the ocean surface. Wave buoys are useful tools for forecasting local waves and are used by recreational and professional ocean users alike.

Wave buoy 225 measures wave height, wave direction, wave period, and water temperature in the vicinity of Kaneohe Bay at the Wave Energy Test Site (WETS) of the U.S. Marine Corps Base Hawaii (MCBH) on the windward (eastern) coast of Oahu in the State of Hawaii. Data are transmitted every half hour. Moored in water 80 meters deep, this Datawell Directional Waverider Mark III (DWR-MkIII) buoy is equipped with three accelerometers measuring north/south, east/west, and vertical displacements, allowing it to measure both wave direction and wave energy. The temperature sensor is located at the base of the 0.9 meter spherical buoy, approximately 45 cm or 18 inches below the ocean surface. Wave buoys are useful tools for forecasting local waves and are used by recreational and professional ocean users alike.

Surface ocean velocities estimated from HF-Radar are representative of the upper 1.0 meters of the ocean. The main objective of near-real time processing is to produce the best product from available data at the time of processing. Radial velocity measurements are obtained from individual radar sites through the U.S. HF-Radar Network. Hourly radial data are processed by unweighted least squares on a 2km resolution grid of the U.S. West Coast to produce near real-time surface current maps.

Wave buoy 098 measures wave height, wave direction, wave period, and water temperature in the vicinity of Mokapu Point on the windward (eastern) coast of Oahu in the State of Hawaii. Data are transmitted every half hour. Moored in water 82 meters deep, this Datawell Directional Waverider Mark III (DWR-MkIII) buoy is equipped with three accelerometers measuring north/south, east/west, and vertical displacements, allowing it to measure both wave direction and wave energy. The temperature sensor is located at the base of the 0.9 meter spherical buoy, approximately 45 cm or 18 inches below the ocean surface. Wave buoys are useful tools for forecasting local waves and are used by recreational and professional ocean users alike.

Wave buoy 106 measures wave height, wave direction, wave period, and water temperature in the vicinity of Waimea Bay on the North Shore of Oahu in the State of Hawaii. Data are transmitted every half hour. Moored in water 200 meters deep, this Datawell Directional Waverider Mark III (DWR-MkIII) buoy is equipped with three accelerometers measuring north/south, east/west, and vertical displacements, allowing it to measure both wave direction and wave energy. The temperature sensor is located at the base of the 0.9 meter spherical buoy, approximately 45 cm or 18 inches below the ocean surface. Wave buoys are useful tools for forecasting local waves and are used by recreational and professional ocean users alike.