A Novel Pseudorandom Noise and Band Jammer Generator Using a Composite Sinusoidal Function

Communication applications are increasingly relying on spread-spectrum techniques requiring the use of different types of pseudorandom noise generators (PRNGs). Such generators typically produce periodic deterministic signals, with key attributes of PRNGs being: signals produced have long periods, a...

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Veröffentlicht in:	IEEE transactions on signal processing 2010-02, Vol.58 (2), p.535-543
Hauptverfasser:	Saab, S.S., Hobeika, J.G., Ouaiss, I.E.
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Sprache:	eng
Schlagworte:	Applied sciences Band jamming Band spectra Bandwidth Circuit noise Circuit testing Cryptography Density Exact sciences and technology Frequency Frequency bands Generators Information, signal and communications theory Jamming Mathematical analysis Miscellaneous Noise generators Power generation Pseudorandom pseudorandom noise generators Signal generators Signal processing Spectra spread spectrum Spread spectrum communication Telecommunications and information theory
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creator	Saab, S.S. Hobeika, J.G. Ouaiss, I.E.
description	Communication applications are increasingly relying on spread-spectrum techniques requiring the use of different types of pseudorandom noise generators (PRNGs). Such generators typically produce periodic deterministic signals, with key attributes of PRNGs being: signals produced have long periods, a large number of weakly correlated signals is produced with compatible spectral properties, most of the signal power of generated signals is contained in the desired frequency band, and arbitrary band selectivity of produced signals. Random generators can also be used for band jamming, with key attributes for band jamming being: most of the signal power is contained in the desired frequency band, arbitrary band selectivity, and a considerably flat power spectral density within the selected band. In this paper, a novel PRNG approach is proposed that can be used in several applications, including spread-spectrum techniques, as well as in band jamming. The signals produced by the proposed generator are based on a linear combination of continuous-time composite sinusoidal functions. Numerical examples are included in order to illustrate the performance of the proposed generator.
doi_str_mv	10.1109/TSP.2009.2029726
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Such generators typically produce periodic deterministic signals, with key attributes of PRNGs being: signals produced have long periods, a large number of weakly correlated signals is produced with compatible spectral properties, most of the signal power of generated signals is contained in the desired frequency band, and arbitrary band selectivity of produced signals. Random generators can also be used for band jamming, with key attributes for band jamming being: most of the signal power is contained in the desired frequency band, arbitrary band selectivity, and a considerably flat power spectral density within the selected band. In this paper, a novel PRNG approach is proposed that can be used in several applications, including spread-spectrum techniques, as well as in band jamming. The signals produced by the proposed generator are based on a linear combination of continuous-time composite sinusoidal functions. 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subjects	Applied sciences Band jamming Band spectra Bandwidth Circuit noise Circuit testing Cryptography Density Exact sciences and technology Frequency Frequency bands Generators Information, signal and communications theory Jamming Mathematical analysis Miscellaneous Noise generators Power generation Pseudorandom pseudorandom noise generators Signal generators Signal processing Spectra spread spectrum Spread spectrum communication Telecommunications and information theory
title	A Novel Pseudorandom Noise and Band Jammer Generator Using a Composite Sinusoidal Function
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