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Sonar signal waveform impact on interference resistance. / Pjachev, V.; Valeev, V.
European Signal Processing Conference: book. Lausanne: IEEE Computer Society, 2008.

Результаты исследований: Глава в книге, отчете, сборнике статейМатериалы конференцииРецензирование

Harvard

Pjachev, V & Valeev, V 2008, Sonar signal waveform impact on interference resistance. в European Signal Processing Conference: book. IEEE Computer Society, Lausanne.

APA

Pjachev, V., & Valeev, V. (2008). Sonar signal waveform impact on interference resistance. в European Signal Processing Conference: book IEEE Computer Society.

Vancouver

Pjachev V, Valeev V. Sonar signal waveform impact on interference resistance. в European Signal Processing Conference: book. Lausanne: IEEE Computer Society. 2008

Author

Pjachev, V. ; Valeev, V. / Sonar signal waveform impact on interference resistance. European Signal Processing Conference: book. Lausanne : IEEE Computer Society, 2008.

BibTeX

@inproceedings{00d6c39ddb4245f2a8ac1ae499662535,
title = "Sonar signal waveform impact on interference resistance",
abstract = "The given work investigates the influence of sonar signal waveform type on the performance of slow-moving targets detection in the presence of ambient noise, interfering reflections, mutual interference of several sonar systems operating in the same water area. The continuous wave (CW) and frequency modulated (FM) waveforms are considered along with more complex waveforms with periodic frequency modulation. The investigation of active sonar pulse types is based on the analysis of the signal properties associated with corresponding ambiguity function. For sounding signals with periodic frequency modulation the proposed processing algorithm utilizes known moving target detection methods. As a preliminary evaluation, the Matlab model is developed to demonstrate the efficiency of the processing technique. Simulation results demonstrate improvement of the detection based on the processing of signals with periodic frequency modulation. copyright by EURASIP.",
author = "V. Pjachev and V. Valeev",
year = "2008",
language = "English",
booktitle = "European Signal Processing Conference",
publisher = "IEEE Computer Society",
address = "United States",

}

RIS

TY - GEN

T1 - Sonar signal waveform impact on interference resistance

AU - Pjachev, V.

AU - Valeev, V.

PY - 2008

Y1 - 2008

N2 - The given work investigates the influence of sonar signal waveform type on the performance of slow-moving targets detection in the presence of ambient noise, interfering reflections, mutual interference of several sonar systems operating in the same water area. The continuous wave (CW) and frequency modulated (FM) waveforms are considered along with more complex waveforms with periodic frequency modulation. The investigation of active sonar pulse types is based on the analysis of the signal properties associated with corresponding ambiguity function. For sounding signals with periodic frequency modulation the proposed processing algorithm utilizes known moving target detection methods. As a preliminary evaluation, the Matlab model is developed to demonstrate the efficiency of the processing technique. Simulation results demonstrate improvement of the detection based on the processing of signals with periodic frequency modulation. copyright by EURASIP.

AB - The given work investigates the influence of sonar signal waveform type on the performance of slow-moving targets detection in the presence of ambient noise, interfering reflections, mutual interference of several sonar systems operating in the same water area. The continuous wave (CW) and frequency modulated (FM) waveforms are considered along with more complex waveforms with periodic frequency modulation. The investigation of active sonar pulse types is based on the analysis of the signal properties associated with corresponding ambiguity function. For sounding signals with periodic frequency modulation the proposed processing algorithm utilizes known moving target detection methods. As a preliminary evaluation, the Matlab model is developed to demonstrate the efficiency of the processing technique. Simulation results demonstrate improvement of the detection based on the processing of signals with periodic frequency modulation. copyright by EURASIP.

UR - http://www.scopus.com/inward/record.url?partnerID=8YFLogxK&scp=84863773748

M3 - Conference contribution

BT - European Signal Processing Conference

PB - IEEE Computer Society

CY - Lausanne

ER -

ID: 38944623