Title :
A procedure for calculating the atmospheric mutual coherence function via the statistical Fourier-optical method
Author :
Sitterle, Jeffrey J. ; Claspy, Paul C. ; Merat, Francis L.
Author_Institution :
Georgia Tech. Res. Inst., Georgia Inst. of Technol., Atlanta, GA, USA
fDate :
1/1/1989 12:00:00 AM
Abstract :
An algorithm is presented for computing the atmospheric mutual coherence function at optical and millimeter wavelengths from flux measurements taken at the focal plane of a reflector antenna. The procedure consists of first computing the inverse Abel transform of the flux, taking the Fourier transform of the result, and then dividing by the aperture pupil function. It is shown that when the flux measurements contain additive noise, the Abel inversion is an ill-posed problem. Therefore, calculation of the inverse Abel transform is accomplished by a Kalman filtering algorithm. Results of the mutual coherence function estimator are given for simulated flux measurements
Keywords :
Fourier transforms; Kalman filters; atmospheric electromagnetic wave propagation; statistical analysis; EM wave propagation; Fourier transform; Kalman filtering algorithm; additive noise; aperture pupil function; atmospheric mutual coherence function; flux measurements; focal plane; ill-posed problem; inverse Abel transform; mm wavelengths; optical wavelengths; reflector antenna; statistical Fourier-optical method; Antenna measurements; Atmospheric measurements; Atmospheric waves; Coherence; Fourier transforms; Millimeter wave measurements; Optical computing; Optical filters; Reflector antennas; Wavelength measurement;
Journal_Title :
Antennas and Propagation, IEEE Transactions on
