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Sinusoidal function-based linear scanning and emission control method for ultrasound biomicroscopes

A technology of linear scanning and emission control, applied in the direction of sound wave re-radiation, electrical program control, program control in sequence/logic controller, etc., can solve the problems of low scanning path utilization and poor image quality, and achieve the goal of scanning path The effect of high utilization rate and small geometric distortion

Active Publication Date: 2012-07-18
SCHOOL OF OPHTHALMOLOGY & OPTOMETRY WENZHOU MEDICAL COLLEGE
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Problems solved by technology

[0004] In order to overcome the deficiencies of geometric distortion, low scanning path utilization rate and poor image quality in the existing equitime-distance linear scanning emission method of ultrasonic biological microscope, the present invention provides a method for eliminating geometric distortion and improving scanning path utilization rate, Sinusoidal function-based linear scanning emission control method for ultrasonic biomicroscope to improve image quality

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  • Sinusoidal function-based linear scanning and emission control method for ultrasound biomicroscopes
  • Sinusoidal function-based linear scanning and emission control method for ultrasound biomicroscopes
  • Sinusoidal function-based linear scanning and emission control method for ultrasound biomicroscopes

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[0023] The present invention will be further described below in conjunction with the accompanying drawings.

[0024] refer to figure 1 , a sine function-based ultrasonic biological microscope linear scanning emission control method, the circumference of the uniform circular motion process corresponding to the ultrasonic biological microscope linear scanning motion process corresponds to 1024 circumferential velocity points equidistantly, and the velocity value v of each velocity point It is the product of the circular velocity value V and the sine value of the arc where the corresponding velocity point is located. The uniform circular motion process is divided into 1023 segments, and the average value of the velocity values ​​v of two adjacent velocity points in each segment is taken as the average velocity value of each segment v avg (i), i represents the segment number, i is a natural number, i=1,2...1023 to calculate v avg (1)...v avg (1023);

[0025] The arc range of t...

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Abstract

The invention relates to a sinusoidal function-based linear scanning and emission control method for ultrasound biomicroscopes. The method equidistantly sets 1024 circumferential velocity points along the circumference of a uniform circumferential motion process corresponding to the linear scanning motion process of an ultrasound biomicroscope, the velocity value v of each velocity point is the product of a circumferential velocity value V and the sine value of an arc with the velocity point, the uniform circumferential motion process is divided into 1023 sections, the mean value of the velocity values v of the two neighboring velocity points of each section is taken as the average velocity value vavg (i) of each section, and i is equal to 1, 2...1023; the radian range of the circumference is between Pi / 6 and Pi5 / 6, the radius of circumferential motion is R, the effective scanning path distance is S as R, the emission distance S of each section is R / 1023 equal to 0.001693R, the emission time of each section is T equal to S / vavg (i), and emission is controlled according to the emission time of each section. The method can eliminate geometric distortion, increase the utilization rate of the scanning path and increase image quality.

Description

technical field [0001] The invention relates to a linear scanning emission technology of an ultrasonic biological microscope, in particular to a scanning control method of an ultrasonic biological microscope for ophthalmic disease diagnosis with an ultrasonic frequency above 35Mhz. Background technique [0002] Ultrasound Biomicroscope (UBM) is a new type of ophthalmic B-ultrasound imaging detection equipment developed in the early 1990s. UBM uses programmable logic devices to control electronic circuits to excite high-frequency ultrasonic transducers to emit high-frequency ultrasound as a signal source, receive ultrasonic echo signals and perform electronic signal processing to obtain digital images related to inspection tissues, combined with computer image processing technology to provide people with Two-dimensional images of the anterior segment similar to low-power optical microscope effects and different cross-sections. UBM has the characteristics of high resolution, ...

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B8/10G05B19/05
CPCG10K11/18G01S7/52046G01S15/8945
Inventor 徐亮禹陈浩朱明善
Owner SCHOOL OF OPHTHALMOLOGY & OPTOMETRY WENZHOU MEDICAL COLLEGE
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