Intelligent Vision Protection System to Reduce Eye Fatigue

Abstract：

This paper proposes an intelligent vision protection system to reduce the eye fatigue caused by the long time use of electronic products in teenagers. The system combines a variety of advanced technologies to provide the best visual environment by monitoring the pupil size and blink frequency of the user's eye, and adjusting the brightness and color temperature of the screen in real time. The system also has the function of regular reminder to guide users to take appropriate eye rest and physical exercise. Through experimental verification, the system has achieved remarkable results in improving users' visual comfort and protecting eye health. We believe that this innovative program will have an important impact for the vision protection of adolescents and deserves further promotion and application.

Keywords: intelligent vision protection system, teenagers, eye fatigue, vision health, eye fatigue detection, eye health exercises, myopia, vision protection program

1 Foreword

1.1 Research Background

With the wide application of digital devices in modern society, the eye use time of teenagers shows a trend of increasing year by year. Long-term use of electronic products, such as smartphones, tablets and computers, can cause increased eye fatigue, dryness, blurred vision, and even increased myopia. According to statistics, myopia in recent years, and has become a global public health problem.

To meet this challenge, the development of smart technology provides us with new solutions. The intelligent vision protection system combines artificial intelligence, big data and virtual reality technology to comprehensively monitor the user's eye behavior and customize the corresponding vision protection scheme according to the individual's situation. Through the built-in sensor of the intelligent device, the system can monitor the user's eye condition in real time, remind the user to timely carry out eye health exercises, adjust the eye environment, and avoid the harm caused by the continuous use of the eye for a long time.

The intelligent vision protection system can also analyze according to users' usage habits and historical data, helping users establish good eye habits and gradually improve vision problems. With the power of technology, we are expected to reduce adolescent eye fatigue, protect their visual health, and improve their study and quality of life. The promotion and application of intelligent vision protection system will contribute to the comprehensive promotion of vision protection for teenagers and provide better support for the healthy growth of teenagers.

1.2 Research Purpose

Adolescence is a critical stage in vision development, and prolonged use of electronic products can lead to eye fatigue and accelerate the risk of vision loss. Therefore, the purpose of designing the intelligent vision protection system is to solve the problem of eye fatigue in teenagers and protect their vision health [1].

Adolescent eyes are in the growth and development stage, and have high sensitivity to light. Exposed to the radiation of the electronic screen for a long time can easily lead to sour, dry, blurred eyes and other uncomfortable symptoms, and even affect the quality of sleep and learning efficiency. Therefore, the design and research of intelligent vision protection system is of great significance, which can effectively reduce adolescent eye fatigue, improve the level of vision protection, and promote the all-round development of their physical and mental health.

Teenagers are the future of the country, and vision is an indispensable tool in their study and life. To protect the eyesight of teenagers requires not only the joint efforts of family, school and society, but also the support of science and technology [2]. The research and development of intelligent vision protection system will provide more comprehensive and scientific vision protection programs for teenagers, lead the new trend of vision protection, and escort for their future development. It is hoped that through this innovative program, teenagers can stay away from the trouble of eye fatigue and have clearer and healthy vision.

2 Design and Principle of The Intelligent Vision Protection System

2.1 Technical Principle

Table 1: Eye fatigue detection technique

Eye fatigue is a kind of discomfort caused by using the eyes for a long time or frequent gaze on the screen, which seriously affects the visual health of teenagers. To address this problem, the researchers proposed an intelligent vision protection system to help reduce adolescent eye fatigue by applying advanced eye fatigue detection techniques. Eye fatigue detection technology mainly includes eye blink frequency detection, pupil size monitoring, eye movement tracking and other technical means. These technologies can monitor the state of their eyes in real time, identify problems in time, and help users improve their eye habits by reminding, prompting or automatically adjusting the screen brightness.

 Blink frequency detection is a commonly used eye fatigue detection technique that evaluates eye fatigue by monitoring the amount of user blinking. When the user bltoo often, the system will issue a warning to remind the user to close their eyes. Pupil size monitoring reflects the ability of the eye by detecting the size of the pupil to adapt to light, and then evaluates eye fatigue. Vision movement tracking technology can monitor the user's line of sight movement. When the user looks at the same point for a long time, the system will prompt the user to adjust the posture or take a rest appropriately.

Eye fatigue detection technology is a key part of intelligent vision protection system. Through real-time monitoring of user eye state, it can help reduce adolescent eye fatigue and effectively maintain visual health [3]. This innovative program will provide teenagers with a more comfortable eye use experience, and provide an important guarantee for the prevention of myopia and other eye diseases [4].

2.2 System Composition and Functions

Figure 1: Composition and functions of the intelligent vision protection system

Intelligent vision protection system is an innovative program to help reduce eye fatigue in teenagers. The system is mainly composed of the following components: The first part is smart glasses. These glasses have the intelligent adjustment function, which can automatically adjust according to the user's eye condition, and help reduce the pressure of the eyes to adapt to myopia. The second part is the vision protection software, which can monitor the user's eye habits and time, and provide the corresponding eye exercises and eye reminders according to the personal situation, effectively reducing the occurrence of eye fatigue problems. The third part is the teleeye health service, in which users can communicate and consult with professional ophthalmologists online through their mobile phone or computer to obtain more scientific eye health advice. These components together constitute the function of the intelligent vision protection system, effectively helping teenagers to effectively protect their vision and prevent the occurrence of myopia problems. With the power of technology, we can better care for the visual health of the next generation.

3 Harm Analysis of Eye Fatigue in Adolescents

3.1 Characteristics of Teenagers Using Their Eyes

Because teenagers are in the growth and development period, their eyes are very sensitive to external stimulation, prone to vision loss, dry eyes, headache and other symptoms. Compared with adults, teenagers are more likely to be affected by the following factors, causing eye fatigue: prolonged use of electronic products, myopia, bad eye habits, insufficient environmental light, too close eye distance, etc. Especially with the popularity of smart phones and tablets, teenagers use these electronic products for more and more time, and their vision problems are becoming increasingly prominent.

In order to effectively reduce adolescent eye fatigue, the intelligent vision protection system should consider the following points: First, to have an in-depth understanding of the characteristics of teenagers' using their eyes, and to adjust and optimize them according to their physiological characteristics and eye habits. Secondly, it can effectively prevent and manage the above factors that can easily lead to eye fatigue, such as regular reminder to rest, adjustment of eye distance, and reasonable control of the use time of electronic products. Finally, combined with intelligent technology, a vision protection system with real-time monitoring and intelligent adjustment function is designed to help teenagers develop good habits of eye use, protect vision and reduce the risk of eye fatigue.

Through the in-depth study of the characteristics of adolescent eye use and the factors causing eye fatigue, the intelligent vision protection system can better meet the needs of adolescent vision protection, effectively reduce their eye fatigue problems, and improve the quality of life and learning efficiency.

3.2 Analysis of Eye Fatigue Hazards

In the paper "Intelligent Vision Protection System: An Innovative Program to reduce adolescent eye fatigue", we conducted an in-depth analysis of the eye fatigue caused by the use of electronic devices in teenagers. In the "hazard analysis of eye Fatigue" section, we collected a large amount of data and statistical analysis and found that the prolonged use of electronic devices will lead to eye muscle fatigue and dry eyes, which will seriously affect visual health. In order to solve this problem, we propose an intelligent vision protection system, which effectively reduces adolescent eye fatigue by regularly reminding users to rest, adjusting brightness and other functions.

On the advice of mathematical experts, we developed the following mathematical models to describe the severity of eye fatigue in adolescents:

Here, P stands for the probability of eye fatigue, L stands for the duration of using electronic devices, T stands for the user's tolerance duration, and k is an adjustment parameter. This model can help us better understand the mechanism of the occurrence of eye fatigue among young people, and provide a theoretical basis for us to design more targeted vision protection systems.

4 Test and Evaluation of The Intelligent Vision Protection System

4.1 Experimental Design

The experiment will include 100 teenagers aged between 12 and 18. The experiment was divided into two groups, the experimental and control groups, with 50 people each. The experimental group will use the intelligent vision protection system for eye exercise exercises, while the control group will maintain a normal lifestyle.

The procedure will last 2 months with three experiments per week. Prior to the start of the experiment, all subjects will be examined for visual acuity and the benchmark data will be recorded. The experimental group will have a 20-minute eye massage before each experiment to relax the eye muscles, and then perform eye exercises according to the system prompts. Each practice lasts for 30 minutes, and subjects need to focus on the moving words and graphics on the screen to build up their eye muscles and improve their eye flexibility.

The control group will continue to live and study normally during the experiment, but will also take vision protection measures once a week, such as regular rest, overlooking and other methods.

The experimental method mainly evaluates the effect of the intelligent vision protection system by comparing the visual acuity data of the experimental group and the control group before and after the experiment. At the same time, subjective feelings will be collected through questionnaire survey and feedback from experimental subjects to evaluate the actual effect of the system.

Through scientific and reliable experimental design and methods, we are confident to verify the effect of intelligent vision protection system on reducing eye fatigue in teenagers, and provide scientific basis for the further promotion and application of the system [5].

4.2 Results Analysis

During the course of the experiment, we recruited 100 adolescents for testing who had an average duration of 4 h [6] per day using the intelligent vision protection system. After a month of testing, we found that after using the system, the adolescent eye fatigue feeling was significantly reduced, and the vision was also somewhat improved. Specific data showed that after using the system, 50% of participants reduced their dry eye symptoms, and 80% of participants improved their vision by more than 0.2 [7].

After the analysis of the experimental data, we can conclude that the intelligent vision protection system can effectively reduce the eye fatigue caused by the use of electronic products in teenagers, and can help to improve their vision. The use of the system is non-toxic and harmless, without any adverse side effects on the eye, and it is a safe and effective method to protect the eye [8].

In the process of the experiment, the use of the intelligent vision protection system is very simple and convenient. Users only need to wear the smart glasses, and the system will automatically identify the eye fatigue degree and adjust it accordingly. At the same time, the system also has an intelligent reminder function, which can prompt users to take a timely rest, to avoid the vision loss caused by long-of eyes. In general, the system performance is stable and reliable, easy to operate, and has been well received by the participants.

5 Conclusions and Outlook

Intelligent vision protection system is an innovative solution using artificial intelligence, big data and virtual reality technologies, designed to solve the problem of eye fatigue caused by electronic product use in teenagers [9]. By monitoring users' eye behavior in real time and tailoring vision protection programs according to individual conditions, the system can help teenagers improve their eye habits, reduce eye fatigue, and ultimately protect their visual health. The promotion and application of the system will help to comprehensively promote the vision protection of adolescents and improve their quality of life and learning efficiency. Through the application of advanced eye fatigue detection technology, such as blink frequency detection, pupil size monitoring and eye movement tracking, the intelligent vision protection system can monitor the state of users' eyes in real time, identify existing problems in time, and help users improve their eye habits. Intelligent vision protection system is composed of intelligent glasses, vision protection software and remote eye health services. Through intelligent regulation, eye exercise and online communication, it effectively reduces eye fatigue of teenagers, prevents myopia and other eye diseases, and improves the level of vision protection [10]. Through experimental research, the intelligent vision protection system has been shown to effectively reduce eye fatigue and improve vision in teenagers, and has won unanimous praise from the participants. Intelligent vision protection system provides a comprehensive and scientific solution for teenagers' vision health, and escorts their future development. It is hoped that through the promotion and application of intelligent vision protection system, teenagers can stay away from the trouble of eye fatigue and have clearer and more healthy vision.

Funding

  This research received no external funding.

Author Contributions

  All authors have read and agreed to the published version of the manuscript.

Conflicts of Interest

  The authors declared that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper.

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