CN114898833A - Myopia prevention and control accuse axletree appearance data intelligent management system - Google Patents

Myopia prevention and control accuse axletree appearance data intelligent management system Download PDF

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CN114898833A
CN114898833A CN202210645304.8A CN202210645304A CN114898833A CN 114898833 A CN114898833 A CN 114898833A CN 202210645304 A CN202210645304 A CN 202210645304A CN 114898833 A CN114898833 A CN 114898833A
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CN114898833B (en
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栾泽文
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Nanjing Yaoke Medical Equipment Co ltd
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    • G16H40/60ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
    • G16H40/63ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for local operation
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
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Abstract

The invention is suitable for the field of computers, and provides an intelligent data management system for a myopia prevention and control axis control instrument, which comprises: the acquisition module is used for acquiring the use data of the user and extracting the theoretical use duration of each functional unit in the use data, wherein the functional units at least comprise a first unit and a second unit, and the theoretical use duration is used for indicating the theoretical use duration of the functional units corresponding to the myopia test data of the user one by one; the judging module is used for acquiring the historical working data of the first unit and judging the variable quantity of the working parameters of the first unit, and the beneficial effects of the invention are that: by judging and processing the myopia test data and the historical working data, negative influence on eyes caused by working parameters out of the normal interval range can be avoided, and meanwhile, the second unit can be selected to be used according to the preference of a user; furthermore, the personalized experience of the user is improved by intelligently identifying the image data through eye exercise.

Description

Myopia prevention and control accuse axletree appearance data intelligent management system
Technical Field
The invention belongs to the field of computers, and particularly relates to an intelligent data management system for a myopia prevention and control axis control instrument.
Background
The vision, also called visual resolution, is the ability of the eye to distinguish the minimum distance between two external object points, and the myopia is one of the ametropia, when the eye is in a state of adjustment and relaxation, parallel rays enter the eye and are focused in front of the retina, so that a clear image cannot be formed on the retina, and the myopia is called; myopia can be divided into axial myopia and refractive myopia according to visual optics, wherein axial myopia: generally, the myopia is true myopia, and the axis of the finger eye is extended to enable parallel rays to enter the eye and focus in front of the retina, so that the myopia is caused; refractive myopia: the axis of the eye is in a normal range, parallel rays enter the eye due to the change of refractive factors such as crystalline lens and the like and are focused in front of retina to form myopia, and the refractive myopia is mainly caused by the fact that the refractive rate is influenced by lens pathological changes caused by ophthalmic diseases and other factors.
In the prior art, the management of the near vision control axis generally comprises behavior prevention and control, common myopia glasses, outdoor exercises, a high-light-rate light supplying instrument, a low-power light supplying instrument, adjusting force training, a zooming lens, high-concentration atropine, a cornea shaping lens, acupuncture point massage and the like, and the axis control instrument can be one or a combination of more of the high-light-rate light supplying instrument, the low-power light supplying instrument, the adjusting force training, the zooming lens, the high-concentration atropine and the cornea shaping lens.
The inventor finds that the existing technology has the following defects that when the action parameter of the axis control instrument changes beyond the normal allowable working range in the using process, the effect on the vision correction of the user is influenced, and the using prevention and control effect and the using experience of the user are influenced.
Disclosure of Invention
The embodiment of the invention aims to provide an intelligent data management system for a myopia prevention and control axis control instrument, and aims to solve the problems in the background art.
The embodiment of the invention is realized in such a way that, on one hand, the intelligent management system for the data of the myopia prevention and control axis control instrument comprises:
the acquisition module is used for acquiring the use data of the user and extracting the theoretical use duration of each functional unit in the use data, wherein the functional units at least comprise a first unit and a second unit, and the theoretical use duration is used for indicating the theoretical use duration of the functional units corresponding to the myopia test data of the user one by one;
the judging module is used for acquiring historical working data of the first unit and judging the variable quantity of the working parameters of the first unit;
the judging and prompting module is used for sending a prompt of waiting for operation and maintenance of the first unit when the time length of the variable quantity reaching the first threshold is judged to be not more than the theoretical use time length corresponding to the first unit preferentially used by the user, wherein the first unit is a non-data playing unit, the utilization rate of the first unit is higher than that of the second unit, and the first threshold is in the reduction proportion range of the critical operation and maintenance threshold of the first working unit;
the system comprises a pre-playing module, a control axis instrument main body and at least one playing device, wherein the pre-playing module is used for pre-playing at least one eye test exercise data through at least one playing device after receiving an agreement instruction input by a user, and the playing device is arranged around the control axis instrument main body;
and the display and play module is used for displaying a selection button for using the second unit if the time length that the user is detected to be in a first preset range taking the shaft control instrument main body as the center reaches the preset time length, and the selection button is used for prompting the corresponding user to click the selection button and then play the eye test exercise data.
As a further aspect of the present invention, the obtaining module includes:
the acquisition sub-module is used for acquiring current myopia test data of the first user, wherein the current myopia test data comprises optometry data, intraocular pressure data and axis data;
the usage data generation submodule is used for generating current usage data of a user according to the matching relation between the current myopia test data of the first user and the axis control instrument, and the current usage data of the user at least comprises theoretical usage duration corresponding to each functional unit;
and the updating submodule is used for updating the historical use data of the user according to the current use data of the user.
As still another aspect of the present invention, the first unit is a solar light simulation unit.
As a still further aspect of the present invention, the determining module includes:
the image generation submodule is used for acquiring a change value of a main working parameter of the first unit along with the use time length after the last maintenance, and generating a first image of which the change value changes along with the use time length;
the searching submodule is used for searching the first image in a pre-established model base with working parameters changing along with the use duration, and the working parameters comprise main working parameters;
the first calculation submodule is used for positioning a first working point corresponding to the current main working parameter in a second image and a second working point corresponding to the change of the main working parameter to a first threshold value when the second image with the similarity larger than the first similarity is found, calculating the transition duration of the first working point and the second working point, and adding the transition duration to the current time node to obtain the time node when the variation reaches the first threshold value;
and the second calculating submodule is used for calculating the transition duration of the first working point and the second working point in each third image according to the method in the previous step if the second image with the similarity larger than the first similarity is not found, but a plurality of third images with the similarity smaller than the first similarity threshold but larger than the second similarity threshold are found, calculating the mean value of a plurality of transition durations to obtain a mean value transition duration, and adding the mean value transition duration to the current time node to obtain the time node with the variation reaching the first threshold.
As a further scheme of the invention, the main working parameter is a red light related parameter.
As a further aspect of the present invention, the pre-play module includes:
the independent display sub-module is used for independently displaying at least two eye exercise image data after acquiring an agreement instruction input by a user;
and the index ranking display sub-module is used for detecting the favorite indexes of the user on the at least two eye exercise image data and displaying the index ranking so as to facilitate the reference and selection of the user.
As a further aspect of the present invention, the specific step of detecting the user's preference indexes for at least two eye exercise image data includes:
intercepting a plurality of marked sub-image data in each eye exercise image data, wherein the marked sub-image data of the same eye exercise image data are provided with distinguishing mark serial numbers;
the two marked sub-image data are independently and continuously displayed according to a set first translation speed V1 and a set second translation speed V2, and V1 and V2 are the same, and the first staying sub-time length of the user's visual angle on the sub-image data with the distinguishing mark serial number is detected;
interchanging the display positions of the two marked sub-image data, and detecting a second staying sub-duration of the visual angle of the user on the sub-image data with the different mark serial numbers;
respectively calculating the total stay time of the two types of marked sub-image data according to the first stay sub-time and the second stay sub-time;
and ranking the fondness indexes of the two eye exercise image data according to the total stay time length, wherein the longer the total stay time length is, the higher the fondness index of the eye exercise image data is.
As a further aspect of the invention, the system is further configured to: the preference index calculation of the eye exercise image data is performed for every two pieces of marked sub-image data in sequence.
The intelligent data management system of the myopia prevention and control axis control instrument provided by the embodiment of the invention has the advantages that through the arrangement of the acquisition module, the judgment module and the like, when the time node of which the variation reaches the first threshold value is judged to be in the theoretical use duration of the first unit, a prompt of waiting for operation and maintenance of the first unit is sent, after an agreement instruction input by a user is received, pre-playing at least one type of eye test exercise data through at least one playing device, wherein the playing device is arranged around the axis control instrument main body, if the detected duration that the user is located in a first preset range with the axis control instrument main body as the center reaches the preset duration, displaying a selection button using the second unit, the selection button is used for prompting a corresponding user to play eye test exercise data after clicking the selection button, so that negative influence on eyes caused by working parameters out of a normal interval range is avoided, and meanwhile, the second unit can be selected to be used according to the preference of the user; furthermore, through intelligent identification of the image data by eye exercise, the personalized experience of the user is improved conveniently.
Drawings
Fig. 1 is a main structural diagram of a myopia prevention and control axis control instrument data intelligent management system.
FIG. 2 is a structural diagram of an acquisition module in the myopia prevention and control axis control instrument data intelligent management system.
FIG. 3 is a structural diagram of a judgment module in the myopia prevention and control axis control instrument data intelligent management system.
Fig. 4 is a structural diagram of a pre-playing module in the myopia prevention control axis control instrument data intelligent management system.
Fig. 5 is a flowchart for detecting a user's preference index for at least two eye exercise image data.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Specific implementations of the present invention are described in detail below with reference to specific embodiments.
The invention provides an intelligent data management system for a myopia prevention and control axis control instrument, which solves the technical problem in the background technology.
As shown in fig. 1, a main structural diagram of an intelligent management system for myopia prevention and control axis control instrument data according to an embodiment of the present invention is provided, where the intelligent management system for myopia prevention and control axis control instrument data includes:
the acquisition module 10 is configured to acquire usage data of a user, and extract theoretical usage durations of functional units in the usage data, where the functional units at least include a first unit and a second unit, and the theoretical usage durations are used to indicate theoretical usage durations of the functional units corresponding to myopia test data of the user one by one;
the judging module 11 is configured to obtain historical working data of the first unit and judge a variation of a working parameter of the first unit;
the judging and prompting module 12 is configured to send a prompt that the first unit is to be operated and maintained when it is judged that the duration that the variation reaches the first threshold is not longer than the theoretical usage duration corresponding to the first unit that is preferentially used by the user, where the first unit is a non-data playing unit and has a higher usage rate than the second unit, and the first threshold is within a reduced proportion range of a critical operation and maintenance threshold of the first working unit; when the critical operation and maintenance threshold is reached, a (running) maintenance check needs to be performed, and the reduced scale range of the critical operation and maintenance threshold indicates that the critical operation and maintenance threshold is not reached yet but is about to approach the critical operation and maintenance threshold, for example, the critical operation and maintenance threshold is 80-100, and the first threshold may be 82-95;
the first unit is a non-data playing unit, the utilization rate of the first unit is higher than that of the second unit, the first unit is a functional unit with a better use effect than the data playing unit, the first unit is preferred during axis control, but the time node when the variation reaches the first threshold value is in the theoretical use duration of the first unit, the functional unit needs to be converted and operation and maintenance are carried out in advance, accidents in the theoretical use process of the first unit are avoided, and negative influence on eyes caused by the fact that working parameters are not in the normal interval range is avoided;
the pre-playing module 13 is used for pre-playing at least one eye test exercise data through at least one playing device after receiving an agreement instruction input by a user, wherein the playing device is arranged around the axis control instrument main body;
and the display and play module 14 is configured to display a selection button for using the second unit if it is detected that the duration of the user in the first preset range centered on the axis control instrument main body reaches a preset duration, where the selection button is used to prompt the corresponding user to click the selection button and then play the eye test exercise data, and indicate that the second unit has an attraction to the user if it is detected that the duration of the user in the first preset range centered on the axis control instrument main body reaches the preset duration.
In the application of the embodiment, through the settings of the obtaining module 10, the judging module 11, and the like, when it is determined that the time node at which the variation reaches the first threshold is in the theoretical use duration of the first unit, a prompt of the first unit for operation and maintenance is sent, after an agreement instruction input by a user is received, pre-playing at least one type of eye test exercise data through at least one playing device, wherein the playing device is arranged around the axis control instrument main body, if the detected duration that the user is located in a first preset range with the axis control instrument main body as the center reaches the preset duration, displaying a selection button using the second unit, the selection button is used for prompting a corresponding user to play eye test exercise data after clicking the selection button, so that negative influence on eyes due to the fact that working parameters are not in a normal interval range is avoided, and meanwhile, the second unit can be selected to be used according to the preference of the user.
It can be understood that the use experience of the user can be improved through the conversion and the use of the functional unit, meanwhile, the full use of the prevention and control axis control instrument is ensured, and the first unit can be continuously used after the successful operation and maintenance information of the first unit is received.
As shown in fig. 2, as a preferred embodiment of the present invention, the obtaining module 10 includes:
the acquisition submodule 101 is configured to acquire current myopia test data of the first user, where the current myopia test data includes optometry data, intraocular pressure data, and eye axis data;
the usage data generation submodule 102 is configured to generate current usage data of a user according to a matching relationship between current myopia test data of a first user and the axis control instrument, where the current usage data of the user at least includes theoretical usage durations corresponding to the functional units; the matching relationship may be a preset chart of the myopia test data and the theoretical usage duration corresponding to the functional unit, which is generally calculated by combining experience and experiment, for example, the corresponding myopia test data mainly includes intraocular pressure data and ocular axis data, and the single specific usage duration of the matched first unit and/or second unit.
And the updating submodule 103 is used for updating the historical use data of the user according to the current use data of the user.
As shown in fig. 3, as a preferred embodiment of the present invention, the determining module 11 includes:
the image generation submodule 111 is configured to acquire a change value of a main working parameter of the first unit along with the use duration after the last maintenance, and generate a first image of which the change value changes along with the use duration;
the searching submodule 112 is configured to search the first image in a model library, in which a preset working parameter changes along with the use duration, where the working parameter includes a main working parameter; the model base of the variation of the operating parameters with the use duration is established according to the variation of the historical operating parameters with the use duration, and the result of the first calculating submodule 113 or the second calculating submodule 114 can be found if the sample capacity is large enough.
The first calculating submodule 113 is configured to, when a second image with a similarity greater than a first similarity is found, locate a first working point corresponding to a current main working parameter in the second image and a second working point corresponding to a first threshold at which the main working parameter changes, calculate a transition duration of the first working point and the second working point, and add the transition duration to a current time node to obtain a time node at which the variation reaches the first threshold; the judgment criterion of the similarity can be the coincidence degree between the segmented sub-images, such as the closeness of parameters such as slope and curvature; the similarity determination criteria of the second calculation submodule 114 are the same; the identification of the similarity is carried out through a trained neural network model, the identification is carried out according to the contact ratio between the segmented sub-images, the slope, the curvature and the like are used as the input of the neural network model in a vector form, the initialization of the network weight is realized through the rands function of matlab, the output of a hidden layer and an output layer is calculated according to a formula, errors and the network weight are updated, after the neural network is trained, the extracted first image is used for predicting the network, the characteristic vector is input, the output of the hidden layer and the output layer is calculated, and a second image with the similarity larger than the first similarity is obtained; the image identification and search principle related to similarity belongs to the prior art, and is not limited herein;
the second calculating sub-module 114 is configured to, if the second image with the similarity greater than the first similarity is not found, but a plurality of third images with the similarities less than the first similarity threshold but greater than the second similarity threshold are found, calculate transition durations of the first working point and the second working point in each third image according to the method in the previous step, calculate a mean value of a plurality of transition durations to obtain a mean value transition duration, and add the mean value transition duration to the current time node to obtain a time node at which the variation reaches the first threshold.
It should be understood that, mainly only the variation relationship between the main operating parameter and the duration of use is considered here, in a specific use, the main operating parameter may be a parameter formed by fusing multiple parameters, and when the variation relationship between the main parameter and the duration of use of a single parameter is considered, the error correction may be performed on the duration of single specific use according to an actual situation, that is, the actual duration of single specific use is the correction coefficient of single specific use, and the correction coefficient may be determined according to an actual situation and by combining with experience, which indicates that the influence of other non-main parameters on the duration of use is considered.
As a preferred embodiment of the present invention, the main working parameter is a parameter associated with red light, and the main working parameter in the red light generator is wavelength; the operating parameters of the red light generator also include the diameter of a cursor, the output power and the illuminance, for example, for a 650nm red light generator (a light meter can be used), the parameters are as follows, the wavelength is 650 +/-10 nm, the diameter of the cursor is 10 +/-3 mm, the output power is 2.0 +/-0.5 mW, and the illuminance is 730 Lux.
Specifically, the sunlight simulation unit can be a light supplying instrument, which utilizes 650nm light waves (the wavelength of red light is between 625-740 nm) sensitive to human eyes, 650nm red light is integrated to replace natural light, the retina is irradiated by safe power and effective time, the retina is promoted to generate and release more dopamine, and the elongation of the axis of the eye is inhibited, so that the purpose of controlling the growth of myopia is achieved.
As shown in fig. 4, as a preferred embodiment of the present invention, the pre-play module 13 includes:
the independent display sub-module 131 is used for independently displaying at least two eye exercise image data after obtaining an agreement instruction input by a user;
the index ranking display sub-module 132 is configured to detect user's favorite indexes of the at least two eye exercise image data, and display the index ranking for the user's reference and selection.
As shown in fig. 5, in one aspect of the present embodiment, the step of detecting a user's preference index for at least two eye exercise image data includes:
step S100: intercepting a plurality of marked sub-image data in each eye exercise image data, wherein the marked sub-image data of the same eye exercise image data are provided with distinguishing mark serial numbers; the marked sub-image data can be representative video clips or pictures selected by workers;
step S101: the two types of marker sub-image data are independently and continuously displayed according to a set first translation speed V1 and a set second translation speed V2, and V1 and V2 are the same; the representation speeds are equal in size and same in direction, and mainly aim to ensure that variables are reduced and only two variables of positions and contents are different;
step S102: detecting a first dwell sub-duration of a visual angle of a user on sub-image data with distinguishing mark serial numbers; wherein the first dwell sub-period comprises a dwell sub-period of the marker sub-image data for each marker;
step S103: interchanging the display positions of the two marked sub-image data, and detecting a second staying sub-duration of the visual angle of the user on the sub-image data with the different mark serial numbers; likewise, the second dwell sub-period has a similar meaning as the first dwell sub-period;
step S104: respectively calculating the total stay time of the two types of marked sub-image data according to the first stay sub-time and the second stay sub-time; the total duration corresponds to the accumulation of each kind of marked sub-image data;
step S105: and ranking the fondness indexes of the two eye exercise image data according to the total stay time length, wherein the longer the total stay time length is, the higher the fondness index of the eye exercise image data is. The sorting is to compare the total duration after accumulation, the longer the total duration is, the higher the love index is, which is convenient for improving the personalized experience of the user, and the higher the love index of the user is, the higher the relaxation degree is, which is beneficial to the vision.
For example, VR1 sub-image data:
0.2+0.3+0.5+0.4+0.5+0.6+0.5+0.2=3.2s;
the VR2 sub-image data is 0.3+0.2+0.2+0.2+0.3+0.2+0.1+0.3 ═ 1.8s, it is determined that the preference index of the VR1 sub-image data is high, if there are only two types of eye exercise image data, the ranks of the two types of eye exercise image data should be fed back to the user, so as to facilitate selection and reference, in general, the user selects the VR1 sub-image data to play, for example, to play VR, and uses VR equipment to watch, so as to exercise the eye axis and relieve fatigue, and also can assist in massaging with massage equipment, and both the VR equipment and the massage equipment belong to a part of an axis prevention and control instrument.
As a preferred embodiment of the present invention, the system is further configured to: the preference index calculation of the eye exercise image data is performed for every two pieces of marked sub-image data in sequence.
In the case where the number of the tagged sub-image data is 2 or more, the preference index calculation of the eye exercise image data is performed for every two tagged sub-image data in sequence, for example, 3 tagged sub-image data, and all the eye exercise image data can be ranked according to the preference index by calculating the preference index between the first and second, second and third, and between the first and third, and generally, the same tagged sub-image data is ranked as an equivalent preference index level through preference indexes twice or more, and at this time, the same tagged sub-image data needs to be subjected to the preference index conversion and then ranked.
The embodiment of the invention provides an intelligent management system for myopia prevention, control and axis control instrument data, which comprises an acquisition module 10, a judgment module 11 and the like, wherein when a time node of which the variation reaches a first threshold is determined to be in the theoretical use duration of a first unit, a prompt of the first unit to be operated and maintained is sent, after an agreement instruction input by a user is received, at least one type of eye test exercise data is pre-played through at least one playing device, the playing device is arranged around an axis control instrument main body, if the time of the user in a first preset range centering on the axis control instrument main body reaches a preset time duration, a selection button using a second unit is displayed, the selection button is used for prompting the corresponding user to play the eye test exercise data after clicking the selection button, so that negative influence on eyes caused by working parameters out of a normal interval range is avoided, and meanwhile, the second unit can be selected for use according to the preference of the user; furthermore, through intelligent identification of the image data by eye exercise, the personalized experience of the user is improved conveniently.
In order to load the above method and system to operate successfully, the system may include more or less components than those described above, or combine some components, or different components, in addition to the various modules described above, for example, input/output devices, network access devices, buses, processors, memories, and the like.
The processor may be a Central Processing Unit (CPU), other general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components, etc. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like which is the control center of the system and which is connected to the various parts using various interfaces and lines.
The memory may be used to store computer and system programs and/or modules, and the processor may perform the various functions described above by operating or executing the computer programs and/or modules stored in the memory and invoking data stored in the memory. The memory may mainly include a program storage area and a data storage area, where the program storage area may store an operating system, an application program required by at least one function (such as an information collection template presentation function, a product information distribution function, and the like), and the like. The storage data area may store data created according to the use of the berth-state display system (e.g., product information acquisition templates corresponding to different product types, product information that needs to be issued by different product providers, etc.), and the like. In addition, the memory may include high speed random access memory, and may also include non-volatile memory, such as a hard disk, a memory, a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) card, a flash memory card (FlashCard), at least one disk storage device, a flash memory device, or other volatile solid state storage device.
It should be understood that, although the steps in the block diagrams of the embodiments of the present invention are shown in sequence as indicated by the arrows, the steps are not necessarily executed in sequence as indicated by the arrows. The steps are not performed in the exact order shown and described, and may be performed in other orders, unless explicitly stated otherwise. Moreover, at least a portion of the steps in various embodiments may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, and the order of performance of the sub-steps or stages is not necessarily sequential, but may be performed in turn or alternately with other steps or at least a portion of the sub-steps or stages of other steps.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.
The above description is intended to be illustrative of the preferred embodiment of the present invention and should not be taken as limiting the invention, but rather, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

Claims (8)

1. The utility model provides a myopia prevention accuse axle appearance data intelligent management system which characterized in that includes:
the acquisition module is used for acquiring the use data of the user and extracting the theoretical use duration of each functional unit in the use data, wherein the functional units at least comprise a first unit and a second unit, and the theoretical use duration is used for indicating the theoretical use duration of the functional units corresponding to the myopia test data of the user one by one;
the judging module is used for acquiring historical working data of the first unit and judging the variable quantity of the working parameters of the first unit;
the judging and prompting module is used for sending a prompt of waiting for operation and maintenance of the first unit when the time length of the variable quantity reaching the first threshold is judged to be not more than the theoretical use time length corresponding to the first unit preferentially used by the user, wherein the first unit is a non-data playing unit, the utilization rate of the first unit is higher than that of the second unit, and the first threshold is in the reduction proportion range of the critical operation and maintenance threshold of the first working unit;
the system comprises a pre-playing module, a control axis instrument main body and at least one playing device, wherein the pre-playing module is used for pre-playing at least one eye test exercise data through at least one playing device after receiving an agreement instruction input by a user, and the playing device is arranged around the control axis instrument main body;
and the display and play module is used for displaying a selection button for using the second unit if the time length that the user is detected to be in a first preset range taking the shaft control instrument main body as the center reaches the preset time length, and the selection button is used for prompting the corresponding user to click the selection button and then play the eye test exercise data.
2. The intelligent management system for data of a myopia prevention and control axis control instrument according to claim 1, wherein the acquisition module comprises:
the acquisition sub-module is used for acquiring current myopia test data of the first user, wherein the current myopia test data comprises optometry data, intraocular pressure data and axis data;
the usage data generation submodule is used for generating current usage data of a user according to the matching relation between the current myopia test data of the first user and the axis control instrument, and the current usage data of the user at least comprises theoretical usage duration corresponding to each functional unit;
and the updating submodule is used for updating the historical use data of the user according to the current use data of the user.
3. The intelligent data management system for a myopia prevention and control axis control instrument according to claim 1, wherein the first unit is a sunlight simulation unit.
4. The intelligent data management system for a myopia prevention, control and axis control instrument according to claim 1, wherein the judging module comprises:
the image generation submodule is used for acquiring a change value of a main working parameter of the first unit along with the use time length after the last maintenance, and generating a first image of which the change value changes along with the use time length;
the searching submodule is used for searching the first image in a pre-established model base with working parameters changing along with the use duration, and the working parameters comprise main working parameters;
the first calculation submodule is used for positioning a first working point corresponding to the current main working parameter in a second image and a second working point corresponding to the change of the main working parameter to a first threshold value when the second image with the similarity larger than the first similarity is found, calculating the transition duration of the first working point and the second working point, and adding the transition duration to the current time node to obtain the time node when the variation reaches the first threshold value;
and the second calculating submodule is used for calculating the transition duration of the first working point and the second working point in each third image according to the method in the previous step if the second image with the similarity larger than the first similarity is not found, but a plurality of third images with the similarity smaller than the first similarity threshold but larger than the second similarity threshold are found, calculating the mean value of a plurality of transition durations to obtain a mean value transition duration, and adding the mean value transition duration to the current time node to obtain the time node with the variation reaching the first threshold.
5. The intelligent data management system for a myopia prevention and control axis control instrument according to any one of claims 1 to 4, wherein the main working parameter is a parameter associated with red light.
6. The intelligent management system for data of a myopia prevention and control axis control instrument according to claim 1, wherein the pre-playing module comprises:
the independent display sub-module is used for independently displaying at least two eye exercise image data after acquiring an agreement instruction input by a user;
and the index ranking display submodule is used for detecting the favorite indexes of the user to the at least two eye exercise image data and displaying the index ranking so as to facilitate the reference and selection of the user.
7. The intelligent management system for data of a myopia prevention and control axis control instrument according to claim 6, wherein the specific step of detecting the user's favorite index of the at least two eye exercise image data comprises:
intercepting a plurality of marked sub-image data in each eye exercise image data, wherein the marked sub-image data of the same eye exercise image data are provided with distinguishing mark serial numbers;
the two marked sub-image data are independently and continuously displayed according to a set first translation speed V1 and a set second translation speed V2, and V1 and V2 are the same, and the first staying sub-time length of the user's visual angle on the sub-image data with the distinguishing mark serial number is detected;
interchanging the display positions of the two marked sub-image data, and detecting a second stay sub-duration of the visual angle of the user on the sub-image data with the distinguishing mark serial numbers;
respectively calculating the total stay time of the two types of marked sub-image data according to the first stay sub-time and the second stay sub-time;
and ranking the fondness indexes of the two eye exercise image data according to the total stay time length, wherein the longer the total stay time length is, the higher the fondness index of the eye exercise image data is.
8. The intelligent management system for data of a myopia prevention and control axis control instrument according to claim 7, wherein the system is further configured to: the preference index calculation of the eye exercise image data is performed for every two pieces of marked sub-image data in sequence.
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