This paper deals with design-oriented analysis based on matrix compression techniques for large array antennas. We will consider arrays with planar radiating elements metalized on dielectric stratification ("printed" arrays of patches, slots, etc.), or made of non-planar conductors in air (with or without backplane), as well as waveguide-based aperture arrays. Reflectarrays, though not explicitly mentioned, are typical applications for both classes.
Matrix compression and supercompression techniques for large arrays / MACI S.; VECCHI G.; A. FRENI. - STAMPA. - 2:(2003), pp. 1064-1067. (Intervento presentato al convegno IEEE Antennas and Propagation Society International Symposium, 2003 tenutosi a Columbus, Ohio nel June 20-29) [10.1109/APS.2003.1219419].
Matrix compression and supercompression techniques for large arrays
FRENI, ANGELO
2003
Abstract
This paper deals with design-oriented analysis based on matrix compression techniques for large array antennas. We will consider arrays with planar radiating elements metalized on dielectric stratification ("printed" arrays of patches, slots, etc.), or made of non-planar conductors in air (with or without backplane), as well as waveguide-based aperture arrays. Reflectarrays, though not explicitly mentioned, are typical applications for both classes.
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