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Extraction of the pulse width and pulse repetition period of linear FM radar signal using time-frequency analysis
Author(s) -
Ashraf Adamu Ahmad,
Sagir Lawan,
M. Ajiya,
Zainab Yunusa Yusuf,
Lawal Bello
Publication year - 2020
Publication title -
journal of advances in sciences and engineering
Language(s) - English
Resource type - Journals
ISSN - 2636-607X
DOI - 10.37121/jase.v3i1.69
Subject(s) - signal (programming language) , pulse repetition frequency , additive white gaussian noise , instantaneous phase , mathematics , radar , pulse width modulation , white noise , frequency modulation , noise (video) , power (physics) , pulse (music) , acoustics , algorithm , physics , computer science , telecommunications , statistics , radio frequency , artificial intelligence , quantum mechanics , image (mathematics) , programming language , detector
A common technique used by military to realize low probability of intercept (LPI) is linear frequency modulation (LFM) in the field of electronic intelligence (ELINT). This paper estimates the pulse width (PW) and the pulse repetition period (PRP) of LFM signal using instantaneous powers. The instantaneous powers were obtained either using time-marginal or power maxima approximated from a modified version of the Wigner-Ville distribution (WVD). The instantaneous power was also gotten directly from the signal by multiplication with its conjugate. Measurement was then carried out when the instantaneous power is ‘ON’ (the PW) and when it is ‘OFF’ (the PRP) at carefully selected thresholds. Thereafter, the mWVD-based algorithm was tested in the presence of additive white Gaussian noise (AWGN) at various signal-to-noise ratios. Results obtained during the test showed that the time marginal method emerged the best with minimum signal-to-noise ratio (SNR) of -5dB followed closely by the direct method with minimum SNR of -1dB at different thresholds. The results show that the proposed algorithm based on this modified WVD can be deployed in the practical field to determine radar’s performance and function

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