Title :
Signal Processing for Phased Array Feeds in Radio Astronomical Telescopes
Author :
Jeffs, Brian D. ; Warnick, Karl F. ; Landon, Jonathan ; Waldron, Jacob ; Jones, David ; Fisher, Richard J. ; Norrod, Roger D.
Author_Institution :
Dept. of Electr. & Comput. Eng., Brigham Young Univ., Provo, UT
Abstract :
Relative to traditional waveguide feeds, phased array feeds (PAFs) for radio telescopes can increase the instrument field of view and sky survey speed. Unique challenges associated with PAF observations, including extremely low signal levels, long-term system gain stability requirements, spatially correlated noise due to mutual coupling, and tight beamshape tolerances, require the development of new array signal processing techniques for this application. We propose a calibration and beamforming strategy for PAFs including interference mitigation with power spectral density (PSD) estimation bias correction. Key efficiency metrics for single-feed instruments are extended to the array case and used to verify performance of the algorithms. These techniques are validated using numerical simulations and experimental data from a 19-element PAF on the Green Bank 20-m telescope.
Keywords :
array signal processing; astronomical telescopes; calibration; interference suppression; radiotelescopes; waveguides; Green Bank telescope; array signal processing; beamforming strategy; beamshape tolerances; calibration; estimation bias correction; interference mitigation; long-term system gain stability; mutual coupling; phased array feeds; power spectral density; radio astronomical telescopes; size 20 m; sky survey; spatially correlated noise; waveguide feeds; Array signal processing; Feeds; Instruments; Noise level; Phased arrays; Radio astronomy; Signal processing; Signal processing algorithms; Stability; Telescopes; Adaptive arrays; interference suppression; radio astronomy;
Journal_Title :
Selected Topics in Signal Processing, IEEE Journal of
DOI :
10.1109/JSTSP.2008.2005023
