A method and system for reconstructing ultrasonic CT images based on ray theory
A ray theory, ultrasonic technology, applied in radio wave measurement system, ultrasonic/sonic/infrasonic diagnosis, sonic diagnosis, etc., can solve problems such as large computational cost, difficulty in solving, and difficulty in building an ultrasonic CT system.
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Embodiment 1
[0067] The sound velocity reconstruction method based on ray theory in the present invention is to properly process the transmission data collected by the ultrasonic CT system, and finally reconstruct the ultrasonic sound velocity image. The steps include the extraction of transit time, the calculation of the ray path, and the solution of the inverse problem , the display of the speed of sound image.
[0068]The collected data comes from the ultrasonic CT hardware system. The hardware system mainly includes an ultrasonic probe, a transmitting circuit module, a receiving circuit module, a data acquisition module, and a computer system. The connection relationship between them, the cooperative working method, etc. can directly refer to the existing technology, such as the literature (Junjie Song, S.W.L.Z., A Prototype System for Ultrasound Computer Tomography with Ring Array, in International conference Biomedical Image and signal processing. 2017). Hardware modules such as the ...
Embodiment 2
[0084] Similar to Embodiment 1, the attenuation coefficient reconstruction method based on ray theory in the present invention includes:
[0085] The attenuation coefficient reconstruction method based on ray theory in the present invention is to properly process the transmission data collected by the ultrasonic CT system, and finally reconstruct the ultrasonic attenuation image. The steps include the extraction of signal energy parameters, the calculation of ray paths, and the inverse problem. Solving, display of the attenuation coefficient graph.
[0086] The energy parameter can be the amplitude, strength, energy of the signal.
[0087] The calculation of the ray path is the same as that in Embodiment 1.
[0088] The solution to the inverse problem is the same as in Example 1.
[0089] After the path calculation is completed, the path-attenuation-energy parameter equation group is constructed, as shown in the following formula (4), where ΔA is the variation of the attenua...
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