Title :
Optimizing sparse two-dimensional transducer arrays using an effective aperture approach
Author :
Lockwood, G.R. ; Foster, F.S.
fDate :
Oct. 31 1994-Nov. 3 1994
Abstract :
We have developed a method for reducing the number of elements in a two-dimensional array while minimizing the loss of image resolution and contrast. The method relies on selecting a different arrangement of elements when the array is transmitting and when the array is receiving energy. The transmit and receive aperture functions are chosen to minimize the difference between the effective aperture of the sparse array and the effective aperture of a desired dense array. The effective aperture is defined by the convolution of the transmit and receive aperture functions. Using this method, we show that the number of elements in a 64×64 two-dimensional array can be reduced by more than six times, and the elements in a 128×128 array can be reduced by more than 12 times, with little effect on the beam forming properties of either array
Keywords :
acoustic convolution; biomedical ultrasonics; image resolution; medical image processing; ultrasonic transducer arrays; 128 times 128 array; 64 times 64 two-dimensional array; beam forming properties; convolution; dense array; effective aperture; effective aperture approach; image contrast loss; image resolution loss; loss; receive aperture functions; sparse two-dimensional transducer array optimization; transmit aperture functions; Acoustic arrays; Acoustic convolvers; Apertures; Biomedical acoustic imaging; Biomedical signal processing; Biomedical transducers; Image resolution;
Conference_Titel :
Ultrasonics Symposium, 1994. Proceedings., 1994 IEEE
Conference_Location :
Cannes, France
Print_ISBN :
0-7803-2012-3
DOI :
10.1109/ULTSYM.1994.401874
