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Hyperopia diopter measurement system and method

A measuring method and technology of measuring system, applied in the field of measuring system of hyperopic diopter, can solve problems such as inconcentration of gaze, inability to obtain professional training, errors, etc., so as to avoid the influence of subjective factors, simplify the process of preparing glasses, and simplify the measurement. Effect

Inactive Publication Date: 2018-10-26
分界线(天津)网络技术有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0006] The simplest and most practical way to correct hyperopia is to wear glasses, and the most important thing in the preparation process is optometry. The commonly used equipment is optometry, which occupies a very important position in clinical work. And other technical means to check the focus of light after it enters the eyeball has the advantages of fast measurement speed and convenient use. However, in actual use, it is found that there are still some problems with the refractor: 1. The refractor is a special hardware, and it is necessary to hire a professional optometrist. , by operating step by step during the measurement to complete the measurement of diopter, it is difficult for ordinary users to purchase expensive refractometers, and they cannot obtain professional training on refraction operations; 2. The accuracy of refractors is affected by many factors , For example: poor coordination of the head and eyes of consumers, lack of concentration of gaze, and excessive nervousness of consumers will cause large errors, so it is inappropriate to use the optometry as the only basis for glasses preparation; 3. The optometry can only measure The general situation of the diopter provides a reference for understanding the degree of refraction of the consumer. The optometrist still needs to try on the insert according to the subjective feeling of the consumer to determine the appropriate degree.

Method used

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  • Hyperopia diopter measurement system and method

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0128] A 28-year-old consumer with a height of 170 cm, male, is in the normal lighting environment of the office, uses a mobile phone Lenovo k5, stands under the light tube, blocks the right eye, and holds the mobile phone to measure the hyperopic diopter of the left eye from near to far For measurement, keep the mobile phone at a constant speed during the movement, and the line of sight observed by the left eye is roughly perpendicular to the screen.

[0129] The picture displayed on the screen of the mobile phone is near the position of the camera. The consumer moves the mobile phone from near to far. When the consumer just sees the E mark clearly, he presses the camera button to obtain the near-point facial image, and the consumer clicks to save key.

[0130] Then move the mobile phone from far to near, determine the best position for reading or close work, take a photo and store it, and then click the calculation button.

[0131] Use OpenCV to calculate the two images sep...

Embodiment 2

[0144] A 14-year-old consumer with a height of 150 cm, male, is in normal natural light in the classroom during his spare time, uses an Iphone, stands in front of the window, blocks his right eye, and measures the hyperopic diopter of the left eye from near to far with the mobile phone in his hand. During the process, roughly keep the mobile phone at a constant speed, and the line of sight observed by the left eye is roughly perpendicular to the screen.

[0145] The consumer's hand-held terminal moves from near to far from the place close to the face. When the consumer just sees the E mark clearly, he presses the camera button to obtain the near-point facial image, and the consumer clicks the storage button.

[0146] Near-point image diameter is 327 pixels.

[0147] The pixels of the near-point facial image are 1920*2560, and the viewing distance Y=1.5*1920 / 327=8.8 cm is calculated according to the formula, and the near-point diopter=-11.36D≈-11.5D is calculated by substitutin...

Embodiment 3

[0150] A 29-year-old woman with a height of 165 cm used her Huawei mobile phone to measure the diopter of hyperopia of the right eye in front of the incandescent lamp in a shopping mall and restaurant during lunch. During the measurement process, the person covers his left eye with his left hand and moves slowly while holding the mobile phone.

[0151] The consumer moves the mobile phone from near to far. When the consumer just sees the E mark clearly, he moves back and forth in a small distance and repeatedly confirms the clear position, and then enters the position determination command by voice, and then the mobile phone software automatically saves the image and uploads it to the app server. middle.

[0152] The consumer gradually moves the mobile phone to the best position when working at ordinary times, and voice inputs the position determination command, and then the mobile phone software automatically saves the image under this position and uploads it to the app server...

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Abstract

The invention relates to a hyperopia diopter measurement system. A camera is used for obtaining a working position facial image of a consumer and obtaining a near-point facial image of the consumer; an image processing computing module is used for calculating the image diameter of an iris in the working position facial image and the image diameter of an iris in the near-point facial image, calculating the sight distance of the working position of one eye and the sight distance of the near point of one eye according to the two image diameters, calculating a working position diopter and a near-point diopter according to the two sight distances and finally calculating a hyperopia diopter according to the two diopters. Accordingly, the hyperopia diopter can be obtained by being measured by a user and measured by an eyeglasses store, the influence of subjective factors of consumers trying on inserts in the traditional dispensing process is avoided, the process of making glasses is simplified, and each consumer can clearly master the change of degrees and conduct eye care under the suggestions provided by software in the aspects such as diet and life.

Description

[0001] Statement of priority [0002] The technical solution of claim 1 of the present invention requires the content in the specific implementation plan of the description of the invention patent application with the application number 2017102925091 submitted to the Patent Office of the State Intellectual Property Office of China on April 28, 2017; [0003] The technical solution of claim 2 of the present invention claims the priority of the technical solution of claim 1 of the invention patent application with application number 2017102925091 submitted to the Patent Office of the State Intellectual Property Office of China on April 28, 2017. technical field [0004] The invention belongs to the technical field of hyperopia diopter detection, in particular to a measurement system and method for hyperopia diopter. Background technique [0005] Hyperopia is due to the short eye axis. When the adjustment state is not used, the parallel light beams are refracted by the eyeball ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): A61B3/032A61B3/028A61B3/11G06K9/00G06K9/46
CPCA61B3/0285A61B3/032A61B3/112G06V40/193G06V40/197G06V10/48
Inventor 阎辉高仁福
Owner 分界线(天津)网络技术有限公司
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