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CN-122025113-A - Visual fatigue detection and alleviation method and electronic equipment

CN122025113ACN 122025113 ACN122025113 ACN 122025113ACN-122025113-A

Abstract

The application discloses a visual fatigue detection and release method and electronic equipment, relates to the technical field of terminals, and can efficiently, accurately and reliably determine the type of visual fatigue, thereby pertinently helping a user effectively relieve the fatigue condition of each part of eyes and helping the user improve the eye health. The electronic equipment can collect all-round eye data such as eye use behaviors, eye use environments and display attributes in the process of using the electronic equipment by a user, finely analyze the collected eye use data through a visual fatigue model to more accurately and reliably determine eye fatigue conditions, such as a specific visual fatigue type, display eye care prompts according to the specific visual fatigue type of the user, prompt the user of the eye fatigue conditions, provide options for triggering eye care guidance for the user through the eye care prompts, display corresponding eye care guidance according to the specific visual fatigue type of the user after clicking the options for triggering the eye care guidance by the user, and pertinently conduct the eye care guidance for the user.

Inventors

  • Lao Shujian
  • Lou Sitong
  • DENG KAIFENG
  • WANG LIRUI

Assignees

  • 华为技术有限公司

Dates

Publication Date
20260512
Application Date
20251023

Claims (18)

  1. 1. A method for detecting and relieving asthenopia, the method comprising: The method comprises the steps that in the process that an electronic device is used by a user, first eye data are obtained, wherein the first eye data comprise eye-using behavior data, eye-using environment data and display attribute data; The electronic equipment analyzes the first eye data through a visual fatigue model to obtain an analysis result, wherein the analysis result comprises a first visual fatigue type; The electronic equipment displays an eye protection prompt according to the analysis result, wherein the eye protection prompt comprises the first asthenopia type and a first option, and the first option is used for triggering eye protection guidance; And the electronic equipment responds to the operation of clicking the first option, and displays eye protection guidance corresponding to the first asthenopia type.
  2. 2. The method of claim 1, wherein the electronic device analyzing the first eye data via a visual fatigue model comprises: And the electronic equipment calculates the visual fatigue accumulated values corresponding to the visual fatigue types respectively through the visual fatigue model, and determines the visual fatigue type of the user to be the first visual fatigue type according to the visual fatigue accumulated values corresponding to the visual fatigue types respectively.
  3. 3. The method according to claim 1 or 2, wherein the electronic device calculates, through the visual fatigue model, visual fatigue integrated values respectively corresponding to a plurality of visual fatigue types, and determines, according to the visual fatigue integrated values respectively corresponding to the plurality of visual fatigue types, that the visual fatigue type of the user is the first visual fatigue type, including: the electronic device performs the following operations through the visual fatigue model: According to the eye-using behavior data, the eye-using environment data and the display attribute data, calculating a first visual fatigue cumulative value corresponding to eye surface fatigue, a second visual fatigue cumulative value corresponding to pupil muscle group fatigue, a third visual fatigue cumulative value corresponding to extraocular muscle fatigue and a fourth visual fatigue cumulative value corresponding to ciliary muscle; Judging whether the first visual fatigue cumulative value meets a judging threshold corresponding to eye surface fatigue, judging whether the second visual fatigue cumulative value meets a judging threshold corresponding to pupil muscle group fatigue, judging whether the third visual fatigue cumulative value meets a judging threshold corresponding to extraocular muscle fatigue, and judging whether the fourth visual fatigue cumulative value meets a judging threshold corresponding to ciliary muscle fatigue; Sorting the first visual fatigue cumulative value, the second visual fatigue cumulative value, the third visual fatigue cumulative value and the fourth visual fatigue cumulative value according to the sizes of the visual fatigue cumulative values meeting the corresponding fatigue types; And determining the first visual fatigue type as the fatigue type corresponding to the maximum visual fatigue cumulative value.
  4. 4. A method according to any one of claims 1 to 3, wherein, The first eye fatigue type is eye surface fatigue, the eye protection interface comprises eye protection guidance corresponding to the eye surface fatigue, the eye protection guidance comprises eye protection advice and/or eye protection training guidance corresponding to the eye surface fatigue, and the eye protection training guidance comprises blink training guidance; Or the first visual fatigue type is pupil muscle group fatigue, the eye protection interface comprises eye protection guidance corresponding to the pupil muscle group fatigue, the eye protection guidance comprises eye protection advice and/or eye protection training guidance corresponding to the pupil muscle group fatigue, and the eye protection training guidance comprises eye closure rest training guidance; Or the first eye fatigue type is eye external muscle fatigue, the eye protection interface comprises eye protection guidance corresponding to the eye external muscle fatigue, the eye protection guidance comprises eye protection advice and/or eye protection training guidance corresponding to the eye external muscle fatigue, and the eye protection training guidance comprises eye movement training guidance; or the first visual fatigue type is ciliary muscle fatigue, the eye protection interface comprises eye protection guidance corresponding to the ciliary muscle fatigue, the eye protection guidance comprises eye protection advice and/or eye protection training guidance corresponding to the ciliary muscle fatigue, and the eye protection training guidance comprises overlook training guidance; wherein the eye care advice comprises one or more of the following reasons for generating asthenopia, eye care matters and asthenopia risk reference values.
  5. 5. The method according to claim 3 or 4, wherein the maximum cumulative asthenopia value is greater than a preset fatigue value.
  6. 6. The method of claim 5, wherein the eye-care guidance comprises an eye-care training guide corresponding to the first fatigue type, the method further comprising: acquiring second eye data; detecting whether a user performs the training action corresponding to the eye-protection training guide; If the user performs the training action, analyzing the second eye data through the visual fatigue model, and judging whether the fatigue degree reaches an expected effect; And if the fatigue degree does not reach the expected effect, adjusting the display attribute and/or displaying the eye protection training guide corresponding to the first fatigue type again.
  7. 7. The method of claim 6, wherein the step of providing the first layer comprises, The eye-using behavior data comprises one or more of eye-using posture, eye-using distance, eye-using duration, eye-using frequency, blink amplitude, eye movement frequency and eye closing duration, the eye-using environment data comprises one or more of environment light brightness, environment light color temperature, environment light strobing, environment humidity, environment air pressure and environment temperature, and the display attribute data comprises one or more of screen brightness, screen color temperature, screen contrast, screen saturation, screen strobing, screen polarization attribute, screen surface reflectivity, screen imaging distance, display content word size and display content distribution density.
  8. 8. The method of claim 6 or 7, wherein the eye-shielding interface further comprises a second option, the method further comprising: and the electronic equipment responds to the operation of clicking the second option, and the eye protection instruction is displayed.
  9. 9. The method of any one of claims 1-8, wherein the electronic device includes an eye health management database including user base information and poor eye statistics, the method further comprising: and the electronic equipment updates the eye health management database according to the first eye data, the first visual fatigue type and the analysis result.
  10. 10. The method of claim 9, wherein the poor eye statistics include one or more of short distance eye statistics, long time eye statistics, dark environment eye statistics, and low frequency blink statistics for the user.
  11. 11. The method according to claim 9 or 10, characterized in that the method further comprises: The electronic equipment displays a statistical interface according to the eye health management database, wherein the statistical interface comprises one or more of daily use statistics, daily visual fatigue statistics and daily average visual fatigue statistics.
  12. 12. The method according to any one of claims 1-11, wherein the electronic device comprises a camera, and wherein the electronic device obtains the eye-use behavior data at a set acquisition frequency through the camera.
  13. 13. The method according to any one of claims 1-12, wherein the electronic device comprises at least one sensor, and wherein the electronic device obtains the ophthalmic environment data by setting the at least one sensor.
  14. 14. The method of claim 13, wherein the at least one sensor comprises one or more of an ambient light sensor, a humidity sensor, a temperature sensor, and a barometric pressure sensor.
  15. 15. The method of claim 14, wherein the method further comprises: The electronic equipment displays an intelligent eye protection function opening interface, wherein the intelligent eye protection function opening interface comprises a third option; And the electronic equipment responds to the operation of clicking the third option, and the intelligent eye protection function is started.
  16. 16. An electronic device, the electronic device comprising: The display screen is used for displaying an interface; The camera is used for collecting eye behavior data; at least one sensor for detecting ocular environment data; A memory for storing computer program instructions; A processor for executing the computer program instructions to support the electronic device to implement the method of any one of claims 1-15.
  17. 17. A computer readable storage medium, having stored thereon computer program instructions which, when executed by a processing circuit, implement the method of any of claims 1-15.
  18. 18. A computer program product comprising instructions which, when run on a computer, cause the computer to perform the method of any of claims 1-15.

Description

Visual fatigue detection and alleviation method and electronic equipment Technical Field The application relates to the technical field of terminals, in particular to a visual fatigue detection and release method and electronic equipment. Background Electronic devices such as mobile phones are widely applied to various aspects of social contact, learning, entertainment, work and the like of people at present of the world of digital romantic mats. Studies have shown that the time period for a global user to use a mobile phone daily has broken through for 6.8 hours. As is known, the eyes are key human sensory organs, and problems of visual burden to the user are likely to occur during the use of the electronic device by the user. For example, as shown in fig. 1, during the use of the electronic device by the user, human factors, device factors, environmental factors, etc. may increase the visual burden of the user, such as increasing eye discomfort and even causing eye diseases. The human factors such as improper eye use behaviors such as continuous eye use and close eye use, weak eye functions caused by mental stress, aging, diseases and the like, equipment factors such as brightness, color temperature, contrast, saturation, stroboscopic, line bias attribute, display content word size, display content distribution density and the like, and environmental factors such as low brightness, dry environment and the like. In order to improve eye health of a user, currently, an electronic device can support recognition of asthenopia conditions of the user through eye detection, and prompt when the user is tired. However, this approach can only make a rough visual fatigue judgment through basic eye detection, and can only make a simple visual fatigue reminder. Therefore, more accurate eye health data cannot be provided for the user, and targeted eye fatigue relief cannot be provided for the user when the user is tired, so that the user cannot be well helped to improve eye health. Disclosure of Invention The application provides a visual fatigue detection and release method and electronic equipment, which can efficiently, accurately and reliably determine the type of visual fatigue, and can pertinently help a user to effectively release the fatigue condition of each part of eyes and help the user to improve the eye health. In order to achieve the above purpose, the application adopts the following technical scheme: The first aspect provides a visual fatigue detection and relief method, which comprises the steps that electronic equipment obtains first eye data in the process of using the electronic equipment by a user, wherein the first eye data comprise eye behavior data, eye environment data and display attribute data, the electronic equipment analyzes the first eye data through a visual fatigue model to obtain an analysis result, the analysis result comprises a first visual fatigue type, the electronic equipment displays an eye protection prompt according to the analysis result, the eye protection prompt comprises the first visual fatigue type and a first option, the first option is used for triggering eye protection guidance, and the electronic equipment responds to the operation of clicking the first option to display the eye protection guidance corresponding to the first visual fatigue type. According to the scheme provided by the first aspect, the electronic equipment can collect all-round eye data of eye use behaviors, eye use environments, display attributes and the like in the process of using the electronic equipment by a user, such as browsing a content interface provided by the electronic equipment, and the collected eye use data are carefully analyzed through the visual fatigue model so as to more accurately and reliably determine the eye fatigue condition, such as determining the specific visual fatigue type. Furthermore, the electronic device may display an eye protection prompt according to the specific eye fatigue type of the user, prompt the user for the eye fatigue condition, and provide the user with an option (such as the first option) for triggering the eye protection instruction through the eye protection prompt. After the user clicks the option for triggering the eye protection instruction, the corresponding eye protection instruction is displayed according to the specific eye fatigue type of the user. Based on the method, eye protection guidance can be performed on the user in a targeted manner, so that the user is helped to effectively relieve the fatigue condition of each part of the eyes, and further helped to improve the eye health. As an example, the visual fatigue model is obtained by performing a visual fatigue analysis algorithm, visual fatigue analysis parameter training, or the like based on a large amount of training data in advance. As one example, the electronic device includes a camera, and the electronic device obtains the eye behavior data by the camera according to a set acquis