TR2023012611A2 - WEB OR MOBILE BASED EYE MOVEMENT AND EXERCISE SYSTEM - Google Patents

Abstract

This invention is related to a web or mobile-based eye movement and exercise system that aims to protect and improve existing vision, reduce refractive errors and slow down their progression by combining ophthalmological measurement and exercise application in a single system, and its feature is; Integrated into the glasses (1), the right-left, up-down, oblique movements of the eye, the number of blinks and the time spent without blinking, the number of fixations (focusing) on the area of interest or the region of interest, focusing time, average focusing time, number of saccadic movements. At least one motion sensor (2) that provides ophthalmological data measurement such as time and duration, pupil size measurement, a processor (3) that evaluates the functional state of the eye with this ophthalmological data measurement data received from the motion sensor (2), a processor (3) that evaluates the functional status of the eye with the data received from the processor (3) and transfers it to the system memory. The detection unit (4), which transmits the exercises suitable for the defined eye problem to the person's web or mobile-based application (7), is integrated into the glasses to rehabilitate the user and makes the user's eyes massage and/or vibrate, and/or performs a pinhole eye test with the included pinhole apparatus. and/or at least one headgear (6) containing a black cover that allows one eye to be evaluated and exercised by covering one eye, at least one adjustment button that zooms the lenses of the glasses (1) closer together and further apart, with the data received from the detection unit (4) allowing the user to adjust after the exercise. command unit (5) that determines the time and/or duration of head (6) movements to rehabilitate, web or mobile-based application (7) that allows access, control and management of the data, and all collected data to a memory and a web or mobile-based application. (7) contains the transmitting communication unit (8).

Description

DESCRIPTION WEB OR MOBILE BASED EYE MOVEMENT AND EXERCISE SYSTEM Technological Field: This invention is related to web or mobile based eye movement and exercise system that aims to protect and improve current vision, reduce refractive errors and slow down progression by combining ophthalmological measurement and exercise application in a single system. Known State of the Art: Today, the records recorded show that a very high number of people worldwide experience eye disease or visual impairment. It is known that refractive errors such as myopia and hyperopia are among the most common visual impairments and that these disorders cause permanent visual impairment if not treated. With the developing technology in recent years, it is inevitable that computers, smart phones and similar electronic devices have become highly involved in both business life and social life. These devices, which have become a necessity of daily life, can be used excessively, whether intentionally or unintentionally. Long-term use of these electronic screen products potentially negatively affects public health with eye and visual symptoms such as ocular discomfort, eye fatigue, dry eyes, headaches, blurred vision and even double vision. It is also known that the progression of refractive errors may be related to the time spent outdoors. The fact that the prevalence of visual impairment is so high and that it is predicted to decrease further makes research on methods that will slow down the progression of visual impairment and provide visual hygiene increasingly important. The research conducted results in the conclusion that there is an increasing interest in eye exercise methods. The most commonly used techniques in the literature include the Bates method, Chinese eye exercises, eye yoga, oculomotor exercises, 4-way eye movements, massage of acupuncture points around the eyes, and palming. Today, there are popular methods used for evaluation and exercise in eye movement measurements. The methods used for evaluation include scleral contact lens/search coil, electrooculography (EOG), infrared (IR) eye tracker, and video eye tracker (VOG). "Wireless Scleral Search Coil Including Related Methods" is discussed. According to the present invention, a "wireless" scleral search coil or wireless search coil assembly includes one or more passive, resonant coils, each of which resonates at a different frequency. The main purpose of the present invention is to enable the scleral search coil or wireless search coil to perform its function wirelessly. According to the scleral contact lens/search coil measurement technique, eye movements are monitored by placing a lens on the eye. Although the result accuracy is high, high care and practice are required in the application due to the placement of the lens on the eye. In addition, when a contact lens containing one or two coil wires is placed on the eye, it is not considered as an ergonomic method because the lens may cause discomfort due to the contact of this wire with the eyelids and the risk of getting tangled in the eyelashes. Wired scleral contact lenses It is fragile, expensive and only allows a few recording sessions. It is not portable and may drift during blinking. Electrooculography (EOG) is based on the measurement of electrical potentials in the skin surrounding the eye by placing electrodes close to the eyes. Its disadvantages include lack of sensitivity due to muscle noise, drift due to changes in the skin-electrode interface, low resolution and accuracy due to changes in corneo-environmental illumination, lack of torsion measurement and poor vehicular measurement. At the same time, since this technique measures the point of regard (POR) of the eye according to the position of the head, the use of a device that also measures head movements is a must for system efficiency. Without using a device that also measures head movements, measuring eye gaze points is generally not suitable in this technique, and the need for additional equipment will cause various problems such as disruptions in system operation. In the infrared (IR) eye tracker technique, the system is not fully efficient because it allows eye movement measurement up to certain angles horizontally and vertically. In addition to the difficulty of calibrating this system, measuring torsion is discussed in the invention numbered CN102626304A, "Head-Mounted Wireless Video Eye Tracker". This invention mentions the use of a camera to obtain eye movement video. Video eye tracker (VOG) based systems use a small camera and digital image processing hardware and software to calculate the direction of the eye. The main purpose of this invention is to exchange information via a computer without any peripheral cable connection and analysis software of the wireless router. Here, an image of the eye needs to be taken with a camera, and some physical or environmental parameters such as drooping eyelids, narrow eye openings, blinking, strabismus and closed eyes make the image acquisition process difficult or even impossible. Video systems make it difficult to determine the eye position. While the eye needs to be illuminated for the camera to capture the image, many evaluations require absolute darkness, creating a contradiction and disrupting the system operation. In addition, obtaining a good enough eye image for torsional eye movement analysis can be difficult. Although the increasing interest in technological devices and the increase in the duration of use of technological devices in daily and business life make it attractive to apply eye exercises in technological devices/environments in order to balance the benefits and harms of these devices, traditional methods are still used. These methods used remain more traditional and there is a need to turn the disadvantages of developing technologies into advantages. It is known that eye refractive diseases, ocular disorders, eye fatigue, dry eyes, blurred vision, double vision and similar ailments can be corrected with eye exercises. Since it is not always possible to perform eye exercises in clinical settings with experienced physiotherapists in the field, they are mostly given as home exercises and follow-ups are not done. This situation can cause compliance problems in the exercise program, deficiencies in the continuation process, injuries due to incorrect applications or problems with hygiene. The reason for this is that there is a possibility of eye damage in any wrong application made during the exercise process that individuals do with their own means. Apart from this, individuals may also abandon the process halfway through the exercise treatment due to not seeing any benefit as a result of not applying the exercises for an insufficient time. At the same time, sterilization problems encountered in exercises applied directly to the eye with their hands also constitute a disadvantage. As a result, there is a need for a new web or mobile based technology that can overcome the above-mentioned disadvantages and aims to improve, develop and protect eye health simultaneously while maintaining the functions of electronic devices in use, combines both the process of measuring eye movements and appropriate exercise applications according to these results, makes eye movement measurements in a comfortable, hygienic, safe and precise way without any contact with the eye and its surroundings, makes exercises fun by integrating appropriate eye exercises into games and activities, improves the adaptation and continuation process of exercise, provides feedback that will increase motivation, allows use without the need for experience, is portable, practical, ergonomic, economical and provides measurements with high accuracy rate. Description of the Invention: This invention is a web or mobile based eye movement and exercise system and its features are; It is a new web or mobile based technology that combines evaluation and exercise application in a single system, aims to protect and improve current vision, reduce refractive errors and slow down its progression, includes both the evaluation process by measuring eye movements and appropriate exercise applications according to these results, makes eye movement measurements in a comfortable, hygienic, safe and precise way without any contact with the eye and its surroundings, makes exercises fun by integrating appropriate eye exercises into games and activities, improves the adaptation and continuation process of exercise, provides feedback that will increase motivation, allows use without the need for experience, is portable, practical, ergonomic, economical and provides measurements with a high rate of accuracy. The invention is designed to realize all the purposes mentioned above and which will emerge from the detailed explanation below; It describes a versatile system that aims to measure eye movements during activity by means of sensors that provide operation at a high frequency such as 2000 Hz to be placed on the glasses and then to present appropriate eye exercises to the user in order to correct, develop and improve the data to be obtained from these measurements. This invention aims to measure eye movements by means of sensors that capture movement without making any contact with the eye and its surroundings and to make safe and precise measurements of eye movements by eliminating the disadvantages of the VOG system to a great extent. This invention aims to use electronic-based devices, which have become an indispensable part of our daily and business lives and are known to have negative effects on the eye in long-term use, in order to improve, develop and protect eye health while continuing their functions. In the present invention, eye movements are measured safely and precisely with the help of sensors that capture movement without any contact with the eye and its surroundings, compared to an inefficient eye movement measurement based on physical and environmental parameters in measurement methods based on image acquisition. With the data to be obtained from these measurements, eye exercises are applied with web or mobile-based applications as needed and their controls are provided through the web application. This invention covers the use of technological devices, where the negative effects of eye health can be observed in long-term use, for exercise purposes to improve eye health. In this invention, it is aimed to integrate appropriate eye exercises into various activities. In this context, rehabilitative games, cartoon scenarios will be developed and various eye exercises will be adapted into games or scenarios. The implementation of many enriched exercise contents such as rehabilitative games and cartoon scenarios to be developed in line with the needs of the person makes the exercises fun. Thus, the adaptation process of the people to the exercise improves and its continuity becomes permanent. The visual or auditory feedbacks to be provided by the device during the exercise increase the motivation and interest of the people to the exercise. The structural and characteristic features of the product subject to the invention and all its advantages will be understood more clearly thanks to the figures given below and the detailed explanation written by making references to these figures, and therefore the evaluation should be made by taking these figures and detailed explanation into consideration. Explanation of Figures: The invention will be explained by referring to the attached figures, so that the features of the invention will be understood and appreciated more clearly, but the purpose of this is not to limit the invention with these specific arrangements. On the contrary, it is intended to cover all alternatives, modifications and equivalents which may be included within the scope of the invention as defined by the appended claims. It should be understood that the details shown are presented solely for the purpose of describing preferred embodiments of the present invention and are presented for the purpose of providing the most convenient and easily understandable description of both the formalization of the methods and the rules and conceptual features of the invention. In these drawings; Figure 1 is a schematic view of the operation of the system subject to the invention. The figures which will assist in the understanding of this invention are numbered as indicated in the attached drawing and are given below with their names. Explanation of References: 1. Eyeglasses Motion Sensor Processor Detection Unit Command Unit Title Application Communication Unit Explanation of the Invention: The invention; The eyeglasses used for ophthalmological measurement and exercise (l), at least 1 motion sensor (2) integrated into the eyeglasses and providing data measurement, a processor (3) evaluating the functional status of the eye, a detection unit (4) performing the appropriate exercise analysis for the individual, a command unit (5) presenting the headgear movements to rehabilitate the user in the most accurate way after exercise, a headgear (6) integrated into the eyeglasses to rehabilitate the user, a web or mobile-based application (7) allowing access, control and management of data, and a communication unit (8). In the invention, the processor (3) that is connected to the motion sensor (2) integrated into the glasses (1) via the wireless communication unit (8) and evaluates the functional status of the eye by processing the measurement data obtained from the motion sensor (2), the detection unit (4) that performs the appropriate exercise analysis for the person according to the result of the evaluation made in the processor (3) and the command unit (5) that lists the movements that will rehabilitate the user in the most accurate way after the exercise according to the exercise results presented in the detection unit (4), work synchronously. The invention includes a memory for storing the signal data obtained by at least 1 motion sensor (2), the data of the ophthalmological measurement evaluation obtained by the processor (3) and the data of the appropriate exercise planning obtained by the detection unit (4) that analyzes the data obtained from the processor (3) and a communication unit (8) that transmits it to a web or mobile-based application (7) for delivery to the user audience. In the invention, a web or mobile-based application (7) has a user and administrator interface and allows access, control and management of the evaluation data of the functional state of the eye and the contents of the exercise planning matched according to the analysis of these evaluation data. Access to various exercise content such as rehabilitative games or cartoon scenarios etc. related to the exercise analysis result obtained from the detection unit (4) through this application (7) working in cooperation with at least 1 motion sensor (2) located in the glasses (1) or units working in connection with the motion sensor (2). In the invention, motion sensor (2) or light sensor combinations are integrated, including at least 1 motion sensor (2) and/or light sensor added to the glasses (l) in order to detect eye movement and make measurement and evaluation. These motion sensor (2) or light sensor groups are not limited to these. In the invention, infrared light is sent to the cornea layer of the eye from at least 1 motion sensor integrated into the glasses (l) in order to detect the movement of the eye. The frequency of the light sent to the pupil and the parallel processing speed are realized in a certain frequency range (high frequency up to 2000 Hz). The reflection of this light from the retina and cornea is recorded and the data obtained from the reflection is transferred to the processor (3) for processing and various ophthalmological measurement results are obtained, such as right-left, up-down, oblique movements of the eye, number of blinks and time spent without blinking, number of fixations (focusing) on the area of interest or region of interest, focus time, total focus rate, average focus time, number and duration of saccadic movements, pupil size measurement, etc. The invention provides the opportunity to collect, evaluate and treat eye evaluations with the motion sensor (2) fixed to the screen without the need for glasses (l). In addition, it offers the use of glasses (l) as an option in the absence of devices such as computers and tablets. There is also a pair of glasses (l) in the system that children can carry their weight, adjust their size and attract their attention with their designs. The glasses (1) are designed as smart glasses (1). The screen of the glasses (l) can work synchronously with web-based devices such as computers, tablets and phones and can also be used alone. Games can be opened and played on the screen of the glasses (l) and scenarios can be watched. The ophthalmological measurement data obtained by processing the data obtained from the sensors or sensor groups in the processor (3) with the glasses (1) will be analyzed and exercise matching according to the needs of the children will be presented via web or mobile-based application (7). The glasses (l) can also be used as virtual reality glasses (1) with their biconvex lenses and wide viewing angle feature. There is an adjustment button on the device that allows the lenses to be brought closer or further apart, and thus the eye distance can be adjusted appropriately for children of all ages. Mode selection is made according to this command output via the remote control (6) wirelessly or manually using a button. These mode selections are not limited to these. According to an alternative embodiment of the invention, Pinhole eye test can be performed with the Pinhole apparatus and a single eye evaluation and exercise opportunity will be provided for cases such as lazy eye by covering one eye with a black cap. Pinhole test can be performed with the pinhole apparatus and black caps to be attached to the glasses (l) from the outside of the glasses (l) and single eye evaluations and exercises will be possible by covering one eye with a black cap. In addition, black caps allow single eye exercise application for cases such as unilateral lazy eye. The glasses (l) in the invention have light sensors with blue light filtering feature. In addition to the glasses, the headgear (6) will massage the acupuncture points and provide relaxation and preparation for exercise around the eyes. The detection unit (4) in the invention analyzes the ophthalmological measurement data obtained by processing the data obtained from the sensor or sensor groups in the processor (3) and offers exercise matching according to the person's needs via web or mobile-based application (7). All these eye exercises are integrated into diversified contents such as rehabilitative games or cartoon scenarios etc. In the invention, there is at least 1 removable headgear (6) that will be integrated externally to the glasses, such as a silicone that massages the eye area with a slight vibration and applies pressure to the acupuncture points around the eye in order to relax the eye after the exercise offered to the user. In the command unit (5), the movements of the headgear (6) integrated into the glasses are listed in order to rehabilitate the user in the most accurate way after the exercise according to the exercise results presented in the detection unit (4). The mode selection is made according to this command output by the headgear (6) wirelessly remotely or by means of a manual guidance such as a button. These mode selections are not limited to these. In each claim, all technical and other features mentioned are followed by a reference number, and these reference numbers are used only to facilitate understanding of the claims, so it should not be considered that they limit the scope of any of the elements indicated by these reference numbers for exemplification purposes. It is possible to develop a wide variety of applications related to the subject of the invention around these basic concepts, and the invention cannot be limited to the examples explained here, it is essentially as stated in the claims. It is clear that a person skilled in the art can also demonstrate the innovation presented in the invention by using similar structures and/or can apply this structure to other areas with similar purposes used in the relevant technique. Therefore, it is also clear that such structures will lack the criteria of innovation and especially exceeding the known state of the art.TR TR TR TR TR