Title :
Modeling of received ultrasound signals from finite planar targets
Author :
Pedersen, Peder C. ; Orofino, Donald P.
Author_Institution :
Dept. of Electr. & Comput. Eng., Worcester Polytech. Inst., MA, USA
fDate :
3/1/1996 12:00:00 AM
Abstract :
Presents a computational solution to the ultrasonic target-dependent spectral distortion for a finite planar target (FT-SD). The FT-SD predicts the spectrum of the output signal from the receiving transducer generated in response to the insonification of a finite planar specular target, as a function of incident angle. The transducer is assumed to be operating in pulse-echo mode. The development is made via scalar diffraction theory, in terms of the angular spectrum decomposition of the acoustic source field. Numerical simulations of the FT-SD are presented for several reflector sizes and orientations, insonified by a planar circular piston transducer. Experimental verification of results for a finite square planar reflector is given for a range of reflector orientations.
Keywords :
acoustic signal detection; acoustic signal processing; spectral analysis; ultrasonic diffraction; ultrasonic reflection; ultrasonic transducers; 15 MHz; FT-SD; acoustic source field; angular spectrum decomposition; aperture diffracted field; computational solution; finite planar targets; incident angle; insonification; modeling; numerical simulations; planar circular piston transducer; pulse-echo mode; received ultrasound signals; receiving transducer; reflector orientations; reflector sizes; scalar diffraction theory; specular target; ultrasonic target-dependent spectral distortion; Acoustic diffraction; Acoustic distortion; Acoustic transducers; Apertures; Frequency; Geometry; Pistons; Transfer functions; Ultrasonic imaging; Ultrasonic transducers;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
