Title: Revisiting HF ground wave propagation losses over the ocean: a comparison of long-term observations and models

Type Dataset Kirincich, Anthony R., Cinquino, Eve (2022-11-29): Revisiting HF ground wave propagation losses over the ocean: a comparison of long-term observations and models. Woods Hole Oceanographic Institution. Dataset. https://darchive.mblwhoilibrary.org/handle/1912/29541

Authors: Kirincich, Anthony R. ; Cinquino, Eve ;

Links

• Item record in Woods Hole Open Access Server
• Digital object URL

Summary

This data was collected by Kirincich as part of the NSF-sponsored High Frequency Radar Winds program, with the goal of understanding the errors in present day HFR-based wind extraction algorithms that are due to variations in the signal losses along the transmission path. Understanding variations in the received power levels for land-based high frequency radar systems is critical to advancing radar-based estimates of winds and waves. We use a long-term record of one-way high frequency radar power observations to explore the key factors controlling propagation losses over the ocean. Observed propagation loss was quantified using an 8-month record of radio frequency (RF) power from a shore-based transmitter, received at two locations: an offshore tower and a nearby island. Observations were compared to environmental factors as well as models of path loss incorporating smooth and rough surface impedances and varying atmospheric properties. Significant differences in the observations at the two sites existed. One-way path loss variations at the tower, a wavelength above mean sea level, were closely related to atmospheric forcing, while variations at the distant island site were dominated by wind-driven surface gravity wave variability. Seasonal variability in ocean conductivity had no significant effect on over-ocean path losses. Simplistic analytical models of path loss were found to have more skill than either ground wave propagation models or more complex numerical models of field strength in matching the observations, due in part to under-observation of the atmosphere but also the differences in rough surface impedance between models of ocean waves.

More information

• URI: https://hdl.handle.net/1912/29541
• DOI: 10.26025/1912/29541

Subjects

• High frequency Radar, Path loss, Martha’s Vineyard, Martha’s Vineyard Coastal Observatory, Nantucket, Surface atmospheric observations, Surface ocean observations

Dates

• accessioned: December 01, 2022
• available: December 01, 2022
• Publication date: November 29, 2022

Funding Information

Format

electronic resource

Locations