DocumentCode
1937935
Title
Interference suppression using a COLT signal processor
Author
Bobier, Kevin ; Dickerson, Roger
Author_Institution
Xetron Corp., Cincinnati, OH, USA
fYear
1994
fDate
10-12 May 1994
Firstpage
267
Lastpage
274
Abstract
COLT, or continuous look through, is a Xetron signal processing technique for the extraction of a weak signal of interest (SOI) in the presence of a larger interfering (I) signal. The process is successful even when the SOI is entirely contained within the spectral bandwidth of the interferer. In addition, unlike common phase cancellation techniques, COLT does not require a separate sample of the interferer. Extraction under these conditions is not achievable with standard linear frequency selective filter networks. The COLT processor therefore enables the excision of desired signals from jamming energy in real time. Successful extraction of the SOI will result even with the input SOI/I ratio as high as -80 dB. Limitations on COLT performance are imposed only by the dynamic range of the host system or propagation anomalies in the communication channel. This paper details COLT´s extraction capabilities and provides performance data for various tactical communication applications
Keywords
interference suppression; jamming; military communication; signal processing; signal processing equipment; COLT signal processor; Xetron; communication channel; continuous look through; dynamic range; interfering signal; jamming energy; performance data; performance limitations; propagation anomalies; spectral bandwidth; tactical communication applications; weak signal of interest; Bandwidth; Communication channels; Data mining; Dynamic range; Frequency shift keying; Interference suppression; Jamming; Nonlinear filters; Signal generators; Signal processing;
fLanguage
English
Publisher
ieee
Conference_Titel
Tactical Communications Conference, 1994. Vol. 1. Digital Technology for the Tactical Communicator., Proceedings of the 1994
Conference_Location
Fort Wayne, IN
Print_ISBN
0-7803-2004-2
Type
conf
DOI
10.1109/TCC.1994.472123
Filename
472123
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