DocumentCode
2683385
Title
Broadband efficient adaptive method for true-time-delay array processing
Author
Wagner, Kelvin H. ; Weaver, Sam ; Kraut, Shawn ; Griffiths, Lloyd ; Weverka, R. Ted
Author_Institution
Optoelectron. Comput. Syst. Center, Colorado Univ., Boulder, CO, USA
Volume
5
fYear
1998
fDate
21-28 Mar 1998
Firstpage
289
Abstract
In this paper we present a new approach to efficient true-time-delay (TTD) beamforming for large adaptive phased arrays as well as its elegant and compact optical implementation. This broadband and efficient adaptive Method for time-delay array processing (BEAMTAP) algorithm decreases the number of tapped delay lines required to process an N-element phased array antenna from N to only 2, producing an enormous savings in delay-line hardware, especially for large arrays, while still providing the full NM degrees of freedom of a conventional N element time delay beamformer with M taps each. This allows the system to fully and optimally adapt to an arbitrarily complex spatio-temporal signal environment that can contain broadband signals, noise, and narrowband and broadband jammers, all of which can arrive from arbitrary ranges and angles onto an arbitrarily shaped array, thus enabling a variety of application in radar, sonar, and communication. This algorithm is an excellent match with the capabilities of RF photonic systems using gratings in photorefractive crystals as adaptive weights, because the hardware implementation of tapped delay lines is the factor which limits the scalability of these systems to large arrays. Because the number of available adaptive coefficients in a photorefractive crystal is practically unlimited, these photonic systems can adaptively control very large 1-D or 2-D phased arrays, that are well beyond the capabilities of conventional RF or real-time digital signal processing techniques
Keywords
adaptive signal processing; antenna phased arrays; array signal processing; delay lines; jamming; optical information processing; radar signal processing; BEAMTAP; N-element phased array antenna; RF photonic systems; arbitrarily shaped array; beamforming; broadband adaptive method; delay-line hardware; jammers; photorefractive crystals; scalability; spatio-temporal signal environment; tapped delay lines; true-time-delay array processing; Adaptive arrays; Antenna arrays; Array signal processing; Broadband antennas; Delay effects; Delay lines; Optical arrays; Phased arrays; Photonic crystals; Signal processing algorithms;
fLanguage
English
Publisher
ieee
Conference_Titel
Aerospace Conference, 1998 IEEE
Conference_Location
Snowmass at Aspen, CO
ISSN
1095-323X
Print_ISBN
0-7803-4311-5
Type
conf
DOI
10.1109/AERO.1998.685835
Filename
685835
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