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PN-spread spectrum system behavior in a highly impulsive noise environment

Das Verhalten einesPN-ausgebreiteten Spektrum-Systems in einem hoch impulsiv verrauschten Kanal

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In the present work the behavior of a Pseudo Noise (PN)-Spread Spectrum system in the presence of a highly impulsive plus Gaussian noise environment is studied. In apraising the acquisition or tracking performance of aPN-spread spectrum system, it was noticed that the noise process when multiplied by the receiver's localPN-code is spectrally spread with a resultant decrease in the noise spectral density. This leads to a significant improvement of the system signal to noise ratio for a given Bit Error Rate (BER), demonstrating so that spread spectrum techniques can provide reliable communications even in such complex impulsive noise environments.

Übersicht

In der vorliegenden Arbeit wird das Verhalten des Pseudorauschens (PN)-ausgebreiteten Spektrumsystems bei Vorhandensein eines hoch impulsiven plus Gausschen Rauschkanals behandelt. Sowohl bei experimentellen als auch unter realen Bedingungen wurde bei Untersuchungen einesPN=ausgebreiteten Spektrumsystems festgestellt, daß das Rauschen, wenn es sich um den lokalenPN-Code des Empfängers vervielfacht, sich die spektrale Rauschdichte entsprechend vermindert. Das führt zu einer bedutenden Verbesserung des Signal-Rausch-Verhältnisses des Systems für einen gegebenenBER-Wert. Auf diese Weise wird gezeigt, daß die Technik ausgebreiteten Spektrums dazu beitragen kann, die Zuverlässigkeit der Nachrichtenübertragung selbst bei komplexen impulsiv verrauschten Kanälen zu verbessern.

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Authors and Affiliations

  1. Electrical Engineering Dept. of Communications, Arestotelian University of Thessaloniki, Thessaloniki, Greece

    S. A. Kosmo poulos & S. S. Kouris

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  1. S. A. Kosmo poulos
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  2. S. S. Kouris
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Kosmo poulos, S.A., Kouris, S.S. PN-spread spectrum system behavior in a highly impulsive noise environment. Archiv f. Elektrotechnik 70, 383–387 (1987). https://doi.org/10.1007/BF01574006

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  • DOI: https://doi.org/10.1007/BF01574006

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