Wavelet analysis of instantaneous correlations with application to frequency hopped signals

Frequency hopped signals are widely used in various communication applications for their inherent security features. The demand, by civilian and governmental agencies, to intercept communication signals is increasing. The interception task can be summarized by detecting the signal's presence in...

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Main Author: Khalil, Nabil Hamdy Shaker
Language:English
Published: Monterey, California. Naval Postgraduate School 2012
Online Access:http://hdl.handle.net/10945/9156
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spelling ndltd-nps.edu-oai-calhoun.nps.edu-10945-91562014-11-27T16:08:09Z Wavelet analysis of instantaneous correlations with application to frequency hopped signals Khalil, Nabil Hamdy Shaker Frequency hopped signals are widely used in various communication applications for their inherent security features. The demand, by civilian and governmental agencies, to intercept communication signals is increasing. The interception task can be summarized by detecting the signal's presence in additive noise, classifying the modulation type, estimating the control parameters, decoding the data, and decrypting the information content. This work addresses the merging of wavelet and correlation concepts to detect, classify and estimate the parameters of frequency hopped signals. We address the interception problem in two ways. The first approach is based on a visual inspection of the wavelet surfaces generated from the instantaneous correlation function of the communication signal and leads to hop start/stop times estimates. In the second approach, we apply an energy-based processing scheme to estimate the hop start and stop times, the hop scale pattern, and the hop frequency. Results show that frequency hopped signals can be identified at an SNR of 3 dB or 6 dB using visual inspection or an automated scheme, respectively 2012-08-09T19:24:43Z 2012-08-09T19:24:43Z 1997 http://hdl.handle.net/10945/9156 eng Monterey, California. Naval Postgraduate School
collection NDLTD
language English
sources NDLTD
description Frequency hopped signals are widely used in various communication applications for their inherent security features. The demand, by civilian and governmental agencies, to intercept communication signals is increasing. The interception task can be summarized by detecting the signal's presence in additive noise, classifying the modulation type, estimating the control parameters, decoding the data, and decrypting the information content. This work addresses the merging of wavelet and correlation concepts to detect, classify and estimate the parameters of frequency hopped signals. We address the interception problem in two ways. The first approach is based on a visual inspection of the wavelet surfaces generated from the instantaneous correlation function of the communication signal and leads to hop start/stop times estimates. In the second approach, we apply an energy-based processing scheme to estimate the hop start and stop times, the hop scale pattern, and the hop frequency. Results show that frequency hopped signals can be identified at an SNR of 3 dB or 6 dB using visual inspection or an automated scheme, respectively
author Khalil, Nabil Hamdy Shaker
spellingShingle Khalil, Nabil Hamdy Shaker
Wavelet analysis of instantaneous correlations with application to frequency hopped signals
author_facet Khalil, Nabil Hamdy Shaker
author_sort Khalil, Nabil Hamdy Shaker
title Wavelet analysis of instantaneous correlations with application to frequency hopped signals
title_short Wavelet analysis of instantaneous correlations with application to frequency hopped signals
title_full Wavelet analysis of instantaneous correlations with application to frequency hopped signals
title_fullStr Wavelet analysis of instantaneous correlations with application to frequency hopped signals
title_full_unstemmed Wavelet analysis of instantaneous correlations with application to frequency hopped signals
title_sort wavelet analysis of instantaneous correlations with application to frequency hopped signals
publisher Monterey, California. Naval Postgraduate School
publishDate 2012
url http://hdl.handle.net/10945/9156
work_keys_str_mv AT khalilnabilhamdyshaker waveletanalysisofinstantaneouscorrelationswithapplicationtofrequencyhoppedsignals
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