KR101948778B1 - Cloud Interlocking Visual Enhancement Wearable Device - Google Patents

Abstract

[0001] The present invention relates to a wearable device for enhancing the visual performance of a cloud interlocking type for prevention and real-time diagnosis of eye disease, personalized treatment, effect analysis and management of an eye disease, A cloud platform interworking unit for providing a personalized service program for enhancing visual function in cooperation with a healthcare cloud platform and providing real-time optometry information to an optometrist image analysis apparatus through a healthcare cloud platform; And a visual enhancement module for performing a training program for enhancing visual performance in accordance with a personalized service program for enhancing visual performance provided from a healthcare cloud platform through an interlocking processor.

Description

{Cloud Interlocking Visual Enhancement Wearable Device}

The present invention relates to a visual enhancement device, and more particularly, to a cloud wearable visual enhancement wearable device for eye disease prevention and real-time diagnosis, personalized treatment, and effect analysis and management.

In general, visual function is a function of processing information of eyes and brain episodes. It is also called vision function, which transmits information input from our eyes to the brain promptly with information input through tactile, olfactory, and auditory It refers to interpretation and giving meaning to information that is integrated and absorbed in the brain.

By such a timing function, various functions that can be utilized for social life, sports, and the like such as distance feeling, stereoscopic feeling and speed feeling are provided.

The visual function occurs irrespective of the good or bad eyesight. If problems arise in the visual function, it is difficult to perform sports activities, difficulty in reading, attention loss, writing problems, , Attention deficit disorder, learning disabilities, writing disorders, and social life disorders.

Especially, children and adolescents have problems in visual function due to periods of ocular development, excessive homework, reading, computer and television. However, most of them responded through eye care and vision correction through eye visits only.

In addition, although there is a great interest in the rapid entry into an aging society and the maintenance of a healthy life of individuals in various harmful environments, the decrease in visual acuity and the prevalence rate of various eye diseases are continuously increasing. As a result, The proportion of the population employed is increasing year by year.

It is known that eye diseases such as myopia and amblyopia, which are the main causes of decreased vision, can partially restore visual function or retard visual function through visual function training.

A variety of secondary medical devices have been introduced in the market to assist in visual field training, but in the case of conventional medical devices, the therapeutic effect is very limited due to the simplicity of the medical device itself.

In addition, due to lack of analysis of treatment effects, lack of integration with diagnosis of specialists, and temporary training / treatment through visit to an off-line hospital, efficient training and treatment according to individual patient's situation are not achieved.

Although there is a steady increase in the decrease in the number of people who have decreased visual sensitivity due to watching the smartphone or television, there is a tendency that the user does not have customized treatment devices and solutions, eye disease treatment centered on post-treatment, absence of pre-diagnosis, There was a problem.

Therefore, in order to effectively cope with rapidly increasing eye disease, development of an automated medical device technology for personalized eye disease prevention, diagnosis, customized treatment, and effect analysis / management is required.

Korean Patent Publication No. 10-2008-0090677 Korean Patent Publication No. 10-2012-0139455

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made to solve the above-mentioned problems of the prior art ocular disease countermeasure technique, and it is intended to provide a wearable device with cloud interoperability for cloud prevention for eye disease prevention, real-time diagnosis, personalized treatment, .

The present invention relates to an eye disease health care platform that supports pre-treatment such as prevention, optometry / diagnosis, visualization training / treatment, effect analysis and management, The purpose of this paper is to provide a wearable device capable of enhancing performance.

The present invention aims to provide a wearable device capable of enhancing visibility and enhancing visual performance based on personalized visual acuity diagnosis / training.

An object of the present invention is to provide a wearable wearable device with a cloud interlocking type having a visibility enhancing module using a diopter lens.

An object of the present invention is to provide a cloud-linked visual power enhancement wearable device having a visual enhancement module using a VR image.

The present invention aims to provide a wearable device with a visual field enhancement module using a diopter lens and a visual field enhancement module using a VR image.

The present invention relates to a wearable device and an eye disease health care platform, which can improve the early detection and visual function of the eye diseases and provide a personalized treatment and effect tracking / analysis / feedback through the pre- The purpose of this paper is to provide a wearable device capable of enhancing performance.

The objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned can be clearly understood by those skilled in the art from the following description.

In order to accomplish the above object, the present invention provides a wearable wearable device for a cloud interlocking type, comprising: a state sensing unit for sensing a visual state of a wearer wearing a wearable wearable device; A cloud platform interworking unit for providing a personalized service program for enhancing performance and providing real-time optometry information to the optometrist image analyzing apparatus through a healthcare cloud platform; And a visual enhancement module for carrying out a training program for enhancing visual performance according to a personalized service program for enhancing functions.

Here, the healthcare cloud platform has an analysis framework based on usage data and device sensing data, performs training control and state sensing of a visual enhancement wearable device, and provides device usage data and a service cloud platform do.

The ophthalmologic image analyzing apparatus is configured to perform an iris center point warping image processing and an eye movement situational analysis based on an eye close-up shot in cooperation with the health care cloud platform, and to analyze the eye movement situation using a PHR (Personal Health Record), an eye- And performing multi-modal sensing data-based analysis.

In the case where the visual enhancement module is configured by a lens adjustment method, a video for performing a training program for enhancing the visual enhancement based on the lens control according to a personalized service program for enhancing the visual enhancement provided from the healthcare cloud platform A lens adjuster for adjusting the lenses of the lens combination module for enhancing visual performance, which includes a perspective adjusting lens, a diopter adjusting lens, and a curtain lens, according to a training program for visual enhancement; And a motor driving unit for performing driving for adjustment of the lenses by control.

In the case of configuring the visual enhancement module as a virtual reality system, a virtual reality-based visual enhancement module is provided for performing a training program for enhancing visual reality based on a personalized service program for enhancing visual performance provided by the healthcare cloud platform A virtual reality processing unit for performing a process for providing a virtual reality through a display unit, an HMD processing unit for supporting an HMD (Head Mounted Display) process for performing a training program, And a smart glasses constituting the smart glasses.

The cloud interlocking type visibility enhancing wearable device according to the present invention has the following effects.

First, it can prevent eye disease and provide real-time diagnosis, customized treatment, effect analysis and management through efficient interoperable cloud-based wearable device.

Second, it supports the effective treatment of eye disease and restoration of visual function by interlocking with the intraocular health care platform which supports pre-treatment such as prevention, optometry / diagnosis, visualization training / treatment, effect analysis and management.

Third, based on wearable device and eye disease healthcare platform, it is possible to early detection of eye disease and improvement of visual function, and it is possible to provide individualized treatment and effect tracking / analysis / feedback through pre-treatment period support.

Fourth, visual enhancement module using diopter lens and visual enhancement module using VR image enables personalized vision diagnosis / training-based visual enhancement service, thus enabling effective eye disease response.

FIG. 1 is a diagram showing an overall configuration of a cloud interlocking type of visual aid enhancing wearable device system according to the present invention
FIG. 2 is a diagram showing the configuration of a cloud interlocking type of visibility enhancing wearable device according to the present invention
3A and 3B are diagrams showing a detailed configuration of a visual function enhancing module according to an embodiment of the present invention
4 is a detailed structural diagram of a visual enhancement module using a diopter lens according to an embodiment of the present invention
Fig. 5 is a view illustrating a wearing configuration of a cloud interlocking type visibility enhancing wearable device according to the present invention

Hereinafter, a detailed description will be made of a preferred embodiment of a cloud interlocking type power assisted wearable device according to the present invention.

The features and advantages of the cloud interlocking type of power assisted wearable device according to the present invention will be apparent from the following detailed description of each embodiment.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall configuration diagram of a cloud interlocking type of visibility enhancing wearable device system according to the present invention; FIG.

The cloud interlocking type wearable device according to the present invention is operable with the intraocular health care platform supporting the pre-treatment period such as prevention, optometry / diagnosis, visualization training / treatment, effect analysis and management, And the ability to recover.

For this purpose, it is equipped with a visual enhancement module using diopter lens and a visual enhancement module using VR image. It is possible to improve early detection and visual function of eye diseases based on wearable device and eye disease healthcare platform, Customized treatment and effect tracking / analysis / feedback can be provided.

1, the overall configuration of a cloud interworking-type wearable device system according to the present invention includes a program for enhancing visual reality-based or lens-based visual perception enhancement, interlocking with a healthcare cloud platform 30 A visual enhancement wearable device 10 that provides a personalized service program for enhancing visual function and provides real-time optometric information to the optometrist image analysis device 20 through the healthcare cloud platform 30, A healthcare cloud platform (30) having an analysis framework based on sensing data and performing training control and state sensing of the visual enhancement wearable device (10) and providing device usage data and a service cloud platform; and a healthcare cloud platform 30) to produce an iris close-up image. (20) for performing multi-modal data-based analysis such as a PHR (Personal Health Record), an eye-sensing image, and periodic disease information, and an expert diagnostic service And a user terminal 50 for providing information for enhancing visual performance by mounting an application for receiving a user service and a visual function diagnostic / training management system 40 for performing a visual function diagnosis / training management by providing a user service program, .

Herein, the visual enhancement wearable device 10 photographs a pupil image of the left eye / right eye from inside, enlarges and reduces the circling, and changes the illumination Hz, and adjusts the obliquity, fusibility, monocular maximum adjustment force, And binocular photographing means for performing a measurement.

The ophthalmologic image analyzer 20 performs iris inner-outer-part separation processing for extracting a monocular iris outer contour, separating an iris foreground and an outer region, and extracting a pupil region inside the iris, And an iris de-warping and feature extraction means for extracting features of the intra-area and the outer-region disease-concentrated regions.

The ophthalmologic image analyzer 20 analyzes the concentration of the muscle strength strengthening exercise, the control ability according to the personal exercise ability, the response feature extraction, the pupil position and size time series data processing for performing the pupil reflection feature extraction according to the pattern flow and the circling change Means.

The wearable wearable device 10 according to the present invention provides a treatment / response service for a pre-treatment cycle for eye diseases such as prevention, sensing / diagnosis, training / treatment, effect analysis, .

It is possible to treat and train various ophthalmic diseases through the visual enhancement wearable device 10 in cooperation with the healthcare cloud platform 30, and to suggest treatment and training effect analysis, expert diagnosis, and directions for improvement of treatment .

The configuration of the cloud interlocking type of visual enhancement wearable device according to the present invention is as follows.

FIG. 2 is a configuration diagram of a cloud interlocking type power supplyable wearable device according to the present invention.

2, the visual function enhancing wearable device 10 according to the present invention includes a state sensing unit 11 for sensing a visual ability state of a user, a visual sensing unit 11 for interlocking with the health care cloud platform 30, A cloud platform interworking processing unit 12 for providing a personalized service program for the eye observation image analysis apparatus 20 through the health care cloud platform 30 and a cloud platform interworking processing unit 12, And a visual enhancement module 13 for performing a virtual reality-based or lens-based visual enhancement training program in accordance with a personalized service program for visual enhancement provided from the health care cloud platform 30 via the virtual reality- .

The detailed configuration of the visual performance enhancing module according to an embodiment of the present invention will now be described.

3A and 3B are detailed block diagrams of a visual function enhancing module according to an embodiment of the present invention.

In the case of configuring the visual function enhancing module according to the embodiment of the present invention as a lens adjusting method, as shown in FIG. 3A, the lens adjusting method according to the personalized service program for enhancing the visual function provided from the health care cloud platform 30 A display unit 13a for displaying an image for performing a training program for enhancing a visual function based on the image, and lenses of a lens combination module for enhancing visual performance having a perspective adjusting lens, a diopter adjusting lens, And a motor driving unit 13c for driving the lens adjusting unit 13b under the control of the lens adjusting unit 13b.

In the case where the visual function enhancing module according to an embodiment of the present invention is configured as a virtual reality system, as shown in FIG. 3B, in accordance with a personalized service program for enhancing visual performance provided from the healthcare cloud platform 30, A virtual reality processing unit 14b for performing a process for providing a virtual reality through the display unit 14a, and a display unit 14b for displaying the image for performing a training program for training An HMD processing unit 14c for supporting an HMD (Head Mounted Display) process for executing a program, and a smart glasses constituting unit 14d for configuring smart glasses to support a training program.

The detailed configuration of the visual enhancement module using the diopter lens according to an embodiment of the present invention will be described below.

4 is a detailed block diagram of a visual enhancement module using a diopter lens according to an embodiment of the present invention.

As shown in FIG. 4, the detailed configuration of the visual enhancement module using the diopter lens according to an embodiment of the present invention includes a lens adjustment control based on a personalized service program for enhancing visual performance provided from the healthcare cloud platform 30 A perspective view adjusting lens 42 for adjusting a perspective view according to a training program for enhancing visual performance, a diopter adjusting lens 42 for adjusting a diopter, (44) for controlling the display area of the image provided through the CCTV, driving motors (45) for adjusting the lenses in both eyes according to the training program for enhancing the visual performance, A control unit 46 for performing control for adjusting the lenses in both eyes according to a training program for enhancing function, And a communication unit 48 for interworking with the health care cloud platform 30. [0050] FIG.

The wearable wearable device according to the present invention is worn by a wearer as shown in FIG.

FIG. 5 is a view illustrating a wearable structure of a cloud interlocking type visibility enhancing wearable device according to the present invention.

5, the wearer wears a cloud interactive type wearable wearable device and performs a training program according to a personalized service program for enhancing the visual function provided from the healthcare cloud platform 30, Diagnosis, and visualization training / treatment, effect analysis, and management.

The cloud interlocking type wearable device according to the present invention described above is operable with the intraocular health care platform supporting the pre-treatment period such as prevention, optometry / diagnosis, visualization training / treatment, Treatment, and visual recovery.

According to the present invention, it is possible to improve early detection and visual function of eye diseases based on a wearable device and an eye disease healthcare platform, and to provide individualized treatment and effect tracking / analysis / feedback through a pre-treatment period support.

As described above, it will be understood that the present invention is implemented in a modified form without departing from the essential characteristics of the present invention.

It is therefore to be understood that the specified embodiments are to be considered in an illustrative rather than a restrictive sense and that the scope of the invention is indicated by the appended claims rather than by the foregoing description and that all such differences falling within the scope of equivalents thereof are intended to be embraced therein It should be interpreted.

10. Wearable device for visual enhancement 20. Optometry analyzer
30. Healthcare cloud platform 40. Visual management system
50. User terminal

Claims (5)

A state sensing unit for sensing a visual state state of the wearer while wearing the wearable device;
A cloud platform interworking unit for providing a personalized service program for enhancing visual function in cooperation with the healthcare cloud platform and providing the real time optometry information to the optometrist image analyzing apparatus through the healthcare cloud platform;
And a visual enhancement module for performing a training program for enhancing visual performance according to a personalized service program for enhancing visual performance provided from the healthcare cloud platform through the cloud platform interworking processor,
When the visual enhancement module is constructed by a lens adjustment method,
A display unit for displaying an image for performing a training program for enhancing the visual function based on the lens control according to a personalized service program for enhancing the visual function provided from the healthcare cloud platform, a perspective view adjusting lens, a diopter adjusting lens, A lens adjusting unit for adjusting the lenses of the lens combination module for enhancing visual performance with a lens according to a training program for enhancing visual performance and a motor driving unit for driving for adjusting the lenses under the control of the lens adjusting unit Wherein the light source is a light source. 2. The healthcare cloud platform of claim 1,
Having an analysis framework based on usage data and device sensing data,
Wherein the wearable device is provided with device usage data and a service cloud platform by performing training control and state sensing of the wearable device. The apparatus according to claim 1,
In conjunction with the above healthcare cloud platform, it performs image processing of iris center point warping image processing of eye close-up shot, eye movement situation analysis, analysis of PHR (Personal Health Record), ocular sensing image, and multi-modality data base analysis of periodic disease information Wherein the light source is a light source. delete delete

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