Pd. Thorne et al., TIME-DOMAIN AND FREQUENCY-DOMAIN ANALYSIS OF ACOUSTIC SCATTERING BY SPHERES, The Journal of the Acoustical Society of America, 95(5), 1994, pp. 2478-2487
In recent years the application of resonance scattering theory, RST, t
o the interaction of underwater sound with elastic bodies, has yielded
a description of the scattering process that has provided valuable in
sight into the underlying mechanisms of scattering. Comparisons of thi
s approach with observations have usually been carried out in the freq
uency domain, using the form function notation. In the present study r
esults are reported of an examination of the backscattered echo from a
selection of spheres conducted both in the time domain and the freque
ncy domain. The structure of the background and resonance components o
f the backscattered signal are investigated, and examined in both doma
ins. To obtain the measurements a linear frequency-modulated signal or
chirp was employed. Using a Fourier analysis approach, with pulse com
pression, measurements have been taken in the time domain, which readi
ly show the components of the backscattered echo. Using these data, se
ctions of the record have been separately transformed to obtain in the
frequency domain the background and resonance form functions. Further
, time-frequency plots have been generated to examine the association
between the time domain echo and the form function structure. To compa
re the observations with predictions, resonance scattering theory has
been applied both in the time domain and the frequency domain.