Title :
Coded excitation system for improving the penetration of real-time phased-array imaging systems
Author :
O´Donnell, Matthew
Author_Institution :
General Electric Co., Schenectady, NY, USA
fDate :
5/1/1992 12:00:00 AM
Abstract :
Based on an analysis of the inherent signal-to-noise ratio (SNR) in medical ultrasound imaging, SNR improvements of 15-20 dB are theoretically possible for real-time phased-array imagers using coded excitation. A very simple coded excitation for phased arrays based on the principles of ´pseudochirp´ excitation and equalization filtering is described. This system is capable of SNR improvements of about 15 dB with range sidelobe levels acceptable for many medical imaging applications. Such improvements permit increased operating frequencies, and hence enhanced spatial resolution, for real-time array imagers. Both simulations and measurements are used to demonstrate the efficacy of the method.<>
Keywords :
acoustic imaging; biomedical ultrasonics; medical diagnostic computing; random noise; real-time systems; SNR analysis; coded excitation system; equalization filtering; inherent signal-to-noise ratio; medical ultrasound imaging; operating frequencies; penetration; pseudochirp excitation; real-time phased-array imaging systems; sidelobe levels; simulations; spatial resolution; Biomedical imaging; Filtering; Frequency; Image analysis; Phased arrays; Real time systems; Signal analysis; Signal to noise ratio; Spatial resolution; Ultrasonic imaging;
Journal_Title :
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
