An adaptive wideband array using a single real multiplier for each antenna element

Tapped-delay-line processors have been widely employed in conventional wideband digital arrays. This type of space-time processing generally suffers from the need of very high sampling rates, phase shifters and delay elements. An adaptive wideband linear rectangular array of omnidirectional antenna elements is proposed. This array requires no phase compensation and employs a single real multiplier for each antenna branch. In addition to having real multipliers, a practical advantage of the proposed array over other conventional algorithms is that the number of antenna elements, required for a relatively high fractional bandwidth, is much lower than comparable wideband beamformers.

[1]  Dan P. Scholnik,et al.  Optimal design of wideband array patterns , 2000, Record of the IEEE 2000 International Radar Conference [Cat. No. 00CH37037].

[2]  T. Yamamoto,et al.  Wideband beamforming using fan filter , 1992, [Proceedings] 1992 IEEE International Symposium on Circuits and Systems.

[3]  K.H. Wagner,et al.  Broadband efficient adaptive method for true-time-delay array processing , 1998, 1998 IEEE Aerospace Conference Proceedings (Cat. No.98TH8339).

[4]  Ryuji Kohno,et al.  Recursive fan filters for a broad-band partially adaptive antenna , 2000, IEEE Trans. Commun..

[5]  Zhi Ding,et al.  Broadband DOA estimation using frequency invariant beamforming , 1998, IEEE Trans. Signal Process..

[6]  L. Godara Application of antenna arrays to mobile communications. II. Beam-forming and direction-of-arrival considerations , 1997, Proc. IEEE.

[7]  Bernard Widrow,et al.  Adaptive Signal Processing , 1985 .