Measurements of ultrasonic pulse arrival time differences produced by abdominal wall specimens

Abstract

The influence of propagation medium inhomogeneities on pulsatile ultrasonic fields has been investigated experimentally. The study employed a special curved transducer to produce a hemispherical wave pulse and a linear array to measure the resulting field along a line in a plane. Translation of the array in the elevation direction yielded data over a two‐dimensional aperture. Time delay across the aperture was calculated by adding delay differences obtained by crosscorrelating signals on adjacent elements and noting the position of the crosscorrelation peaks. Received waveforms were shifted an amount given by the difference between the actual arrival time and a calculated geometric delay to isolate arrival time differences due to propagation path inhomogeneities. Waveform and time delay difference plots, as well as histograms and statistics derived from them for propagation through a water path and for propagation through five specimens of human abdominal wall, indicate that arrival time fluctuations in the presence of human abdominal wall specimens are significantly greater than for a water path, and that degradation in focusing through human abdominal wall can be expected in ultrasonic imaging systems that operate in the low megahertz range and employ a relatively large aperture.