Title :
Improved spectrograms using the discrete Fractional Fourier transform
Author :
Agcaoglu, Oktay ; Santhanam, Balu ; Hayat, M.
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of New Mexico, Albuquerque, NM, USA
Abstract :
The conventional spectrogram is a commonly employed, time-frequency tool for stationary and sinusoidal signal analysis. However, it is unsuitable for general non-stationary signal analysis [1]. In recent work [2], a slanted spectrogram that is based on the discrete Fractional Fourier transform was proposed for multicomponent chirp analysis, when the components are harmonically related. In this paper, we extend the slanted spectrogram framework to non-harmonic chirp components using both piece-wise linear and polynomial fitted methods. Simulation results on synthetic chirps, SAR-related chirps, and natural signals such as the bat echolocation and bird song signals, indicate that these generalized slanted spectrograms provide sharper features when the chirps are not harmonically related.
Keywords :
discrete Fourier transforms; piecewise linear techniques; signal processing; time-frequency analysis; SAR-related chirps; bat echolocation; bird song signals; discrete fractional Fourier transform; general nonstationary signal analysis; improved spectrograms; multicomponent chirp analysis; natural signals; piece-wise linear method; polynomial fitted method; sinusoidal signal analysis; slanted spectrogram framework; stationary signal analysis; synthetic chirps; time-frequency tool; Birds; Chirp; Fourier transforms; Mathematical model; Polynomials; Spectrogram; Synthetic aperture radar; DFrFT; Spectrogram; nonharmonic chirps; slanted spectrogram;
Conference_Titel :
Digital Signal Processing and Signal Processing Education Meeting (DSP/SPE), 2013 IEEE
Conference_Location :
Napa, CA
Print_ISBN :
978-1-4799-1614-6
DOI :
10.1109/DSP-SPE.2013.6642569
