eScholarship Repository eScholarship Repository California Digital Library
eScholarship > SIO > TECHREPORT > Paper 71

SIO Papers

SIO Website

Policies

Search SIO

Submit a Paper

Notify me of new papers
institute_logo

Scripps Institution of Oceanography
University of California, San Diego
SIO Papers  •  SIO Website  •  Policies  •  Search SIO  •  Submit a Paper

Properties of HF RADAR Compact Antenna Arrays and Their Effect on the MUSIC Algorithm
Tony de Paolo
Eric Terrill

Download the Paper (629 K, PDF file) - November 9, 2007 Tell a colleague about it.
Printing Tips: Select 'print as image' in the Acrobat print dialog if you have trouble printing.

ABSTRACT:

Detailed analysis of the compact antenna array patterns and the internal signal processing within the MUSIC algorithm leads to a goodness-of-fit quality metric for the output radial current velocities and bearings produced by the HF RADAR system. To achieve this, some theory behind the MUSIC direction finding algorithm, describing its Direction of Arrival (DOA) metric, is first presented. MATLAB simulations are conducted and statistics are collected on the DOA metrics. The magnitudes of these metrics are directly related to the quality of the bearings produced by the MUSIC algorithm. This research provides HF RADAR users with a practical quality metric for the radial current velocities and their associated bearings produced by the HF RADAR system. Eliminating data with low DOA metrics can decrease the RMS error (by an average of 2.33 cm/s) in up to 70% of the spatial RADAR grid, however comes at a cost of an increase the RMS error(by an average 1.08 cm/s) in 20% of the same grid.

Quality of measured antenna patterns is paramount to the accuracy of the MUSIC algorithm bearing output. Ambiguities, as well as other aspects of the measured antenna patterns that are detrimental to quality, are discussed. MUSIC results over land bearings are explained, as well as the clustering of radials along the edges of the antenna patterns near land. Best practices are presented to eliminate all of these effects.

Criteria (“MUSIC parameters”) for deciding whether a given MUSIC radial velocity originates from one or two bearings are defined and discussed. Varying the MUSIC parameters can decrease error depending on the expected current being measured. A current that generates a majority of radial velocities from only one bearing should have the MUSIC parameters set to favor single bearing solutions, and vice-versa. Simulation results are provided in the Appendices.

SUGGESTED CITATION:
Tony de Paolo and Eric Terrill. Properties of HF RADAR Compact Antenna Arrays and Their Effect on the MUSIC Algorithm. November 9, 2007. Scripps Institution of Oceanography Technical Report. http://repositories.cdlib.org/sio/techreport/71

 
bar
Open Archives Initiative eScholarship is a service of the California Digital Library bepress