KR102011805B1 - Automatic optometric apparatus - Google Patents

Abstract

The present invention provides a voice output unit for indicating or explaining the vision measurement step; A display unit displaying a character or a graphic of a step size for visual acuity measurement of a subject; A voice recognition unit for recognizing an answer voice of a test subject for a character or a figure displayed step by step on the display unit; A comparison reader which determines whether or not the answer of the examinee recognized by the voice recognition unit matches a character or a figure displayed on the display unit; A vision determining unit which determines an eye of the examinee based on the reading result of the comparison reading unit; And an output unit for outputting the determined eyesight of the examinee in conjunction with an output device, wherein the eyesight of the examinee can be measured quickly and accurately without an inspector.

Description

Automatic optometric apparatus

The present invention relates to an automatic optometrist, and more particularly, to an automatic optometrist capable of automatically measuring without an examinee by recognizing the voice of the examinee.

Conventionally, the visual acuity measurement is performed by a subject covering one eye at a distance of about 5 meters from a measuring device and reading a letter or a figure indicated by the inspector, and determining the previous value of the measurement value which was not read correctly by measuring the visual acuity of the subject. It was. However, this method has a problem that the measured value may vary depending on the measurement location because it is exposed to an external environment such as light, and it is difficult to obtain an objective measured value because the measurement time varies depending on the response speed of the subject, and always requires an inspector. There was also manpower burden.

The improved optometry currently used by ophthalmologists and eyewear specialists is installed inside the optometrist, rather than being exposed to the outside, so when the subject touches the eye like a microscope, the refractive error value indicated is displayed and the refractive error value is corrected. Later, the subject responds in the same manner as before, and the inspector determines the vision. However, this measurement method also has the advantage that it is not exposed to the external environment, but as a conventional tester is required, there is a disadvantage that is not fully automated and objectified.

(0001) Republic of Korea Patent Publication No. 10-1999-0078733 (0002) Republic of Korea Patent No. 10-0387356

The present invention is to provide an automatic optometry to determine the eyesight of the subject according to the artificial intelligence mounted inside the optometrist by recognizing the response of the subject to automatically measure the eyesight of the subject without the examiner.

The present invention provides a voice output unit for indicating or explaining the vision measurement step in order to solve the problem to be solved; A display unit displaying a character or a graphic of a step size for visual acuity measurement of a subject; A voice recognition unit for recognizing an answer voice of a test subject for a character or a figure displayed step by step on the display unit; A comparison reader which determines whether or not the answer of the examinee recognized by the voice recognition unit matches a character or a figure displayed on the display unit; A vision determining unit which determines an eye of the examinee based on the reading result of the comparison reading unit; And an output unit configured to output the determined visual acuity of the examinee in association with an output unit.

In addition, the present invention comprises a visual acuity determination means having a character or a figure of the step size; Conversion means for adjusting the size of a character or figure of the visual acuity determining means; And indicating means for displaying the character or figure of the visual acuity determining means to the examinee.

In addition, the display unit displays n characters or figures at each step, and the visual acuity determiner corresponds to a character or figure represented by the display unit when the answer of n-1 or more of the test results is matched by n comparison reading results. An automatic optometry is provided, wherein the value is determined by the visual acuity of the subject.

In addition, the present invention provides an automatic optometry, characterized in that the ratio of n-1 to n is 66% or more.

In addition, the present invention provides an automatic optometry, characterized in that the output unit comprises a voice output unit, a printer, a smartphone.

Automated optometry according to the present invention has the effect that can quickly and accurately measure the eyesight of the subject without the examiner.

In addition, the automatic optometry according to the present invention has the effect that can easily measure the vision of the low vision subject step by step with an automated system.

1 is a view showing the configuration of an automatic optometry according to an embodiment of the present invention.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

Automatic optometry according to the invention voice output unit; A display unit; Voice recognition unit; Comparative reading unit; Vision determining unit; And an output unit.

The voice output unit may instruct or explain a vision measurement step. Speakers are installed inside or outside the optometrist, and a comment flows out to guide the subject to measure vision without the examiner. In addition, if the voice of the examinee is not easily recognized by the voice recognition unit, a request for re-response may be provided. The automatic optometry according to the present invention may proceed with the measurement from the most recent visual acuity stage based on the previously input data, or may proceed from the low visual acuity stage (0.1) in order from the highest stage.

The display unit displays a letter or a figure of a step size for visual acuity measurement of a subject, and may include a visual acuity determining means, a converting means, and an indicating means. The visual acuity judging means is provided with a character or figure of a step size, the converting means has a function of adjusting the size of a character or a figure of the visual acuity judging means, and the indicating means sends the character or figure of the visual acuity judging means to the examinee. It has a visible function. In an embodiment, the visual judgment means displays characters or graphics of different sizes according to the visual acuity value from 0.1 to 2.0, and the indicating means instructs the text or graphic displayed on the visual acuity value 0.1, and then the subject is displayed on the visual acuity value 0.1. When the characters or figures are matched, the converting means converts the characters or figures shown in the indicating means into the characters or figures indicated in the visual acuity value 0.2.

The display unit may be one component of an automatic optometry, or may be an external display device such as a TV or a monitor. In addition, the display unit may include two display modules. One display module may display an image for checking the vision of the left eye, and the other display module may display an image for checking the vision of the right eye. A corresponding left eye display module may be used to check left eye vision, a corresponding right eye display module may be used to check right eye vision, and both display modules may be used to test both eyesight.

The voice recognition unit has a function of recognizing the answer voice when the examinee answers a character or a figure displayed in steps corresponding to the visual acuity value on the display unit. Specifically, the voice signal of the examinee is received, and the feature data is secured by analyzing the voice signal such as frequency analysis. Receives feature data for the voice signal and feeds the identified language information back to the comparison reader. The voice recognition unit receives the external voice of the examinee, may be received through a microphone mounted inside the optometrist, or may be performed by receiving a voice received from a sound collecting device connected to a jack or a USB type connector.

The comparison reading unit has a function of determining whether the answer of the examinee recognized by the voice recognition unit and the characters or figures represented by the display unit match. In detail, the audio data of the received voice is analyzed to generate a recognition result, and the recognition result is determined by comparing the generated recognition result with a predetermined recognition result. When determining whether the recognition, the similarity score is calculated, when the calculated similarity score exceeds the threshold, it can be determined that the recognition is successful. The threshold of the similarity score is generally determined at the time of shipment of the voice recognition device, but may be adjusted by the user. The threshold determined as described above may be stored in the registry in software or hardware in the memory, and further, the threshold value may be stored in the form of a lookup table (LUT). Thus, it will not be particularly limited to how the threshold value is stored.

The visual acuity determining unit has a function of determining the visual acuity of the subject based on the reading result of the comparative reading unit. Specifically, for each step, the n characters or figures displayed on the display unit and the examinee's answer are compared and read.If the n comparison results show that the answers of the n-1 or more subjects match the characters or figures shown on the display unit, The value is determined by the subject's vision. In one embodiment, when the subject fits two of the three letters or figures displayed on the visual acuity value 1.0, 1.0 is determined as the visual acuity of the subject. In another embodiment, when the examinee hits one or less of the three, the display unit of the step (0.9) below is displayed, and the vision measurement of the examinee is resumed.

It is preferable that the ratio of n-1 with respect to n is 66% or more.

The output unit has a function of outputting the determined visual acuity of the examinee in association with the output unit. The output device includes a display module, such as a liquid crystal display (LCD), a light emitting diode (LED), or the like, a printer module that can be embedded in a case (mechanism) of an automatic optometry, and / or an interface for interfacing with an external printer. . It may also be a voice output unit including a speaker.

The automatic optometry according to the present invention includes a processor that is a connection unit, and the processor has a function of controlling by connecting an internal component, such as a voice output unit, a display unit, a voice recognition unit, a comparison reader, a vision determination unit, and an output unit. For example, when audio data of a subject's voice is received through the voice recognition unit, the audio data of the subject's voice is transmitted to the comparison reader, and the contents determined by the comparison reader are transferred to the vision determining unit to determine the eyesight of the subject.

In addition, the display unit according to the present invention may adjust the distance to the subject within the optometry under the control of the processor. That is, the display unit may be moved back and forth inside the optometry. Conventional displays use fixed targets 3m or 5m away from the subject in an open space, so that patients with low vision less than 0.1 cannot read the big one at the top and move forward until they see it. Although the visual acuity was measured, the automatic optometry according to the present invention moves the display unit itself mounted in the optometrist constantly back and forth to enable more accurate and objective vision measurement than the conventional method. In one embodiment, the display inside the device is set at a distance of 50 cm from the subject, and when the subject cannot read 0.1 time, the processor moves the display part at a distance of 40 cm, and when the subject read the time correctly, the subject The visual acuity of can be determined as 0.1 x 40/50 = 0.08. In another embodiment, when the test subject cannot read the target even at a distance of 10 cm (when visual acuity is less than 0.02), the display unit displays a moving number of a certain number of fingers extended to allow the subject to adjust the number of extended fingers. Can be measured. For example, if a subject whose visual acuity is less than 0.02 matches the number of fingers moving at a set speed at a distance of 30 cm, the visual acuity of the subject is determined to be 30 cm of safety resin. In another embodiment, if the number of fingers cannot be read even at a distance of 10 cm, the palm is displayed on the display to measure whether it is recognized by the safety manual inspection or by detecting the presence of light to measure the wide angle free / wide angle oil Can also be measured. The wide-angle free / wide-angle oil is repeatedly executed by turning off and on the lights inside the automatic optometrist, and determines whether or not the predetermined number of times exceeds a threshold. This allows the measurement method, which is conventionally performed directly by the inspector, to be automatically performed step by step in the automatic optometry.

In an exemplary embodiment, the processor may display a character or a graphic of a specific measured value at a distance of 50 cm on the display unit, and move forward the display unit by 10 cm when the examinee fails to read the measured value of 0.1. If the subject cannot read even at a distance of 10 cm, the processor displays a shape of a certain number of finger wavings on the display to allow the subject to read it. do.

In addition, the display unit of the automatic optometry according to the present invention may perform a screening test for color blindness, color weakness by performing a test for color vision abnormality. In general, the color vision test should be performed under a constant illuminance, but it is difficult to obtain an accurate value because it is difficult to accurately inspect and subjective of the inspector. It is possible to perform a color vision test, which has the effect of screening automated and objectified values.

The optometrist according to the present invention may further include a storage unit, which has a function of storing various applications, algorithms, and various data derived from the process necessary for measuring vision. In addition, the determined visual acuity of the subject may be stored. Previous and current determined visual acuity of the same subject is stored and output, and the subject may compare and judge the same. In addition, the storage unit may store the threshold value related to the similarity score, and then provide the stored threshold value for comparison reading to the comparison reading unit under the control of the controller.

In addition, the optometry according to the present invention may further include an illumination unit, an optical unit or a sensing unit.

The lighting unit outputs light to the display unit, and includes a plurality of white or colored LEDs so that the target images displayed on the display module (s) of the display unit can be maintained at a constant brightness.

The optical unit may include one or more lenses and a reflector to allow the eye of the examinee to recognize the target image and the plurality of reference images of the display unit in the vision inspector.

The sensing unit recognizes the subject, and when the subject is recognized by the sensing unit, the vision test may be started by the controller. That is, a comment indicating that the voice output unit starts is output and at the same time visual acuity measurement is performed. The sensing unit is a pressure sensor for detecting the pressure applied to the jaw cradle configured in the automatic optometrist, a temperature sensor for detecting the body temperature of the subject detected by the automatic optometry, an infrared sensor for recognizing the subject, the pressure applied to the jaw cradle And a circuit for outputting a changing signal.

The automatic optometry according to the present invention may be terminated after outputting the visual acuity test result through the output unit or transmitting the result to the external device through the external interface unit.

In addition, the automatic optometry according to the present invention can accurately measure various visual acuity information such as refractive power, astigmatism, astigmatism axis, etc. of the subject by increasing the use ratio of signal light reflected from the subject in consideration of the pupil size of the subject. In one embodiment, the light is injected into the eye using the optical system of the automatic eyepiece, and the image of the light reflected from the eye is converted into an electrical signal using a light detection sensor, and then analyzed by using a computing device. Various vision information can be measured.

In addition, the present invention includes an automatic refraction tester to determine the center of the pupil by the difference in the degree of light reflected from the pupil and the iris, and by using this value the autohorter can be automatically moved to the pupil center of both eyes. The automatic refraction inspector is located between the subject and the display unit, and when the automatic refraction inspection is completed, the automatic refraction inspector moves up or down inside the optometrist so that the display unit is not covered by the subject's field of vision.

The present invention may include an automatic hobtor that automatically rotates a disk device equipped with a plurality of lenses in the autoophthalmist, and the automatic hobopter may correct the refractive error of the subject's eye. The rotation is a method of moving a disk by moving a gear using a motor. The automatic houter included in the automatic optometrist according to the present invention may be designed to automatically measure distance and horizontality. In addition, the houlter may include a pinhole function. In general, the pinhole function is used to exclude the effect of the refractive error when the pupil is large or the refractive correction is not good for other reasons, the present invention is measured by the automatic refraction tester or more than the average value of the subject If your vision is less than your vision, you can add a pinhole lens to your autohortator to measure your vision.

The present invention is to measure the visual acuity of the display screen at a short distance within about 50cm rather than the optical distance of 3m or 5m, and a constant diopter is added to the hobtor. It is preferable to measure visual acuity after application. The constant diopter is an additional refractive error value that can compensate for the difference in distance to the actual refractive error value of the patient, and preferably adds 2 diopters. In a specific embodiment, the diopter is an inverse of the focal length represented by the meter (m), and since the -2 diopter is exactly in an image formed on the retina when viewed at a distance of 1/2 m (50 cm), the present invention is a refractive error of the actual patient. It is preferable to measure visual acuity by applying the value of 2 diopters to the value.

Claims (5)

An audio output unit for instructing or explaining an optometry step;
A display unit displaying a character or a graphic of a step size for visual acuity measurement of a subject;
A voice recognition unit for recognizing an answer voice of a test subject for a character or a figure displayed step by step on the display unit;
A comparison reader which determines whether or not the answer of the examinee recognized by the voice recognition unit matches a character or a figure displayed on the display unit;
A vision determining unit which determines an eye of the examinee based on the reading result of the comparison reading unit; And
And an output unit configured to output the determined visual acuity of the examinee in association with an output unit.
The display unit displays n characters or figures in each step,
And the visual acuity determiner determines that the value is determined by the visual acuity of the subject when the n-to-one reading result of the n-to-one comparison matches the character or figure indicated by the display unit. The method of claim 1,
The display unit visual acuity determination means having a step-size letter or figure;
Conversion means for adjusting the size of a character or figure of the visual acuity determining means; And
And an indication means for displaying the character or figure of the visual acuity determining means to the examinee. delete The method of claim 1,
The ratio of n-1 to n is more than 66% auto-optic, characterized in that. The method of claim 1,
The output unit is an automatic optometry, characterized in that it comprises a voice output unit, a printer, a smartphone.

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