Title :
Adaptive spectral estimation of the attenuation in skin
Author :
Girault, J.M. ; Ouahabi, A. ; Ossant, F. ; Patat, F. ; Guittet, C.
Author_Institution :
LUSSI, Tours, France
Abstract :
In the field of biological tissue characterization, fundamental acoustic attenuation properties have demonstrated to have diagnostic importance. A nonstationary autoregressive (AR) model is employed to estimate the acoustical attenuation which is known to be dependent on frequency. A particular frequency such as maximum energy frequency is used to evaluate the spectral downward shift. Backscattered signals by a homogeneous medium of scatterers are supplied by a computer model with attenuation values ranging from 1 to 5 dB/cm MHz and 45 MHz transducer central frequency. The proposed adaptive AR algorithm is evaluated with these experimental conditions. Preliminary obtained results promise encouraging perspectives for in vitro and in vivo applications, namely in the skin identification area
Keywords :
adaptive signal processing; backscatter; biomedical ultrasonics; digital simulation; medical signal processing; physiological models; skin; spectral analysis; ultrasonic absorption; 45 MHz; acoustical attenuation; adaptive AR algorithm; adaptive spectral estimation; backscattered signals; biological tissue characterization; computer model; diagnostic importance; fundamental acoustic attenuation properties; homogeneous medium; maximum energy frequency; skin attenuation; spectral downward shift; transducer central frequency; Acoustic scattering; Application software; Attenuation; Biological system modeling; Biological tissues; Frequency estimation; In vitro; In vivo; Skin; Transducers;
Conference_Titel :
Instrumentation and Measurement Technology Conference, 1997. IMTC/97. Proceedings. Sensing, Processing, Networking., IEEE
Conference_Location :
Ottawa, Ont.
Print_ISBN :
0-7803-3747-6
DOI :
10.1109/IMTC.1997.604002
