Title :
Computation of the acoustic field of arbitrary plane or spherical transducer
Author :
Faure, Ph ; Cathignol, D.
fDate :
Oct. 31 1994-Nov. 3 1994
Abstract :
For a transducer excited with an uniformly distributed velocity, the pressure is usually calculated as a convolution process between the diffraction impulse response h(r,t) and the time derivative function of the uniform distributed velocity applied to the transducer v0(t). h(r,t) functions are only known for few typical shapes, and their sampling leads to a long computation time. Thus, we propose to solve the convolution process between the time derivative function of h(r,t) and v0(t). We show that for an arbitrary plane or spherical transducer, this equation leads to a simple line integral. Experimental results confirm the validity of the method
Keywords :
acoustic field; acoustic transducers; convolution; integral equations; transient response; acoustic field computation; convolution process; diffraction impulse response; line integral; plane transducer; pressure field; spherical transducer; time derivative function; uniformly distributed velocity; Acoustic transducers; Convolution; Integral equations;
Conference_Titel :
Ultrasonics Symposium, 1994. Proceedings., 1994 IEEE
Conference_Location :
Cannes, France
Print_ISBN :
0-7803-2012-3
DOI :
10.1109/ULTSYM.1994.401777
