C. Heneghan et al., INVESTIGATING THE NONLINEAR DYNAMICS OF CELLULAR MOTION IN THE INNER-EAR USING THE SHORT-TIME FOURIER AND CONTINUOUS WAVELET TRANSFORMS, IEEE transactions on signal processing, 42(12), 1994, pp. 3335-3352
The short-time Fourier transform (STFT) and the continuous wavelet tra
nsform (CWT) are used to analyze the time course of cellular motion in
the inner ear. The velocity responses of individual outer hair cells
and Hensen's cells to sinusoidal and amplitude modulated (AM) acoustic
al signals applied at the ear canal display characteristics typical of
nonlinear systems, including the generation of harmonic and half-harm
onic components. The STFT proves to be valuable for following the time
course of the frequency components generated using sinusoidal and AM
input signals. The CWT is also useful for analyzing these signals; how
ever, it is generally not as effective as the STFT when octave-band-ba
sed CWT's are used. For the transient response, the spectrogram (which
is the squared magnitude of the STFT) and the octave-band-based scalo
gram (which is the squared magnitude of the CWT) prove equally valuabl
e, and we have used both to study the responses of these cells to step
-onset tones of different frequencies. Such analyses reveal informatio
n about the preferred vibration frequencies of cells in the inner ear
and are useful for deciding among alternative mathematical models of n
onlinear cellular dynamics. A modified Duffing oscillator model yields
results that bear some similarity to the data.