Comparison of Active-set Method Deconvolution and Matched-filtering for Derivation of an Ultrasound Transit Time Spectrum
Overview
Nuclear Medicine
Radiology
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The quality of ultrasound computed tomography imaging is primarily determined by the accuracy of ultrasound transit time measurement. A major problem in analysis is the overlap of signals making it difficult to detect the correct transit time. The current standard is to apply a matched-filtering approach to the input and output signals. This study compares the matched-filtering technique with active set deconvolution to derive a transit time spectrum from a coded excitation chirp signal and the measured output signal. The ultrasound wave travels in a direct and a reflected path to the receiver, resulting in an overlap in the recorded output signal. The matched-filtering and deconvolution techniques were applied to determine the transit times associated with the two signal paths. Both techniques were able to detect the two different transit times; while matched-filtering has a better accuracy (0.13 μs versus 0.18 μs standard deviations), deconvolution has a 3.5 times improved side-lobe to main-lobe ratio. A higher side-lobe suppression is important to further improve image fidelity. These results suggest that a future combination of both techniques would provide improved signal detection and hence improved image fidelity.
Mechanisms of Interaction of Ultrasound With Cancellous Bone: A Review.
Wear K IEEE Trans Ultrason Ferroelectr Freq Control. 2019; 67(3):454-482.
PMID: 31634127 PMC: 7050438. DOI: 10.1109/TUFFC.2019.2947755.