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Broadband Multiple Cone-Beam 3-D IIR Digital Filters Applied to Planar Dense Aperture Arrays

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3 Author(s)
Wijenayake, C. ; Department of Electrical and Computer Engineering, University of Akron, Akron, OH, USA ; Madanayake, A. ; Bruton, L.

A digital beamformer that can synthesize array factors (AFs) with multiple, ultrawideband (UWB), frequency-independent beams at lower computational complexity is proposed. The beamformer is based on a novel 3-D infinite impulse response (IIR) transfer function H_{\rm MC}\left({\bf z}\right) having multiple cone-shaped passbands in the 3-D spatio–temporal (ST) frequency-domain mmb{\omega }\inBBR^{3} . The magnitude frequency response and the AF of H_{\rm MC}\left({\bf z}\right) are simulated for dual- and single-passband cases. An element pattern of a broadband Vivaldi antenna is simulated at 1.4 GHz and is used to obtain the total array pattern. Computational complexity of H_{\rm MC}\left({\bf z}\right) for single-passband (1Cone) case and that of the conventional phased array (PA) beamformer are derived. The magnitude frequency response of the proposed beamformer for 1Cone case and that of the PA beamformer are compared using the mean square error (MSE). For the given selectivity specified by the half cone angle \epsilon={\hbox {5}}^{\circ} , proposed beamformer provides around 60% lower MSE for the same complexity and around 90% lower complexity for the same MSE compared with the PA beamformer.

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Antennas and Propagation, IEEE Transactions on  (Volume:60 ,  Issue: 11 )