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CN-116650292-B - Naked eye 3D double-channel amblyopia data processing system

CN116650292BCN 116650292 BCN116650292 BCN 116650292BCN-116650292-B

Abstract

The invention provides a naked eye 3D double-channel amblyopia data processing system, which comprises a naked eye 3D intelligent mobile handheld terminal, wherein the naked eye 3D intelligent mobile handheld terminal comprises a shell, a naked eye 3D PCB fixing installation seat for fixedly installing a naked eye 3D PCB is arranged in the shell, the naked eye 3D PCB is fixedly installed on the naked eye 3DPCB board fixing installation seat, a controller, a video image storage module and a naked eye 3D display screen arranged on the surface of the shell are arranged on the naked eye 3D PCB, the controller carries out real-time naked eye 3D amblyopia processing on video images in the video image storage module, and the video images are displayed on the naked eye 3D display screen in real time for training and watching by amblyopia persons. The invention can train the amblyopia of the amblyopia children through the video images, improve the condition of the children and reduce the storage space.

Inventors

  • TAI ZHENG
  • TANG SHIBING
  • WANG TING

Assignees

  • 深圳小豆视觉科技有限公司

Dates

Publication Date
20260512
Application Date
20210204

Claims (18)

  1. 1. The naked eye 3D double-channel amblyopia data processing system is characterized by comprising a naked eye 3D intelligent mobile handheld terminal, wherein the naked eye 3D intelligent mobile handheld terminal comprises a shell, a naked eye 3D PCB fixed mounting seat for fixedly mounting a naked eye 3D PCB is arranged in the shell, the naked eye 3D PCB is fixedly mounted on the naked eye 3D PCB fixed mounting seat, a controller, a video image storage module and a built-in power supply indicating circuit are arranged on the naked eye 3D PCB, and the built-in power supply indicating circuit indicates that the electric quantity of a built-in power supply BAT2 is insufficient through the lighting of a built-in power supply electric quantity indicating lamp LED 2; the built-in power supply indication circuit comprises a first end of a resistor R1 and a first end of a resistor R2 which are respectively connected with the positive electrode end of a power battery BAT1, a second end of the resistor R1 is connected with the first end of a built-in power supply electric quantity indication lamp LED2, a second end of the built-in power supply electric quantity indication lamp LED2 is connected with a collector of a NPN triode Q1, an emitter of the NPN triode Q1 is respectively connected with a built-in power supply acquisition end of a controller and a first end of a resistor R4, a second end of the resistor R4 is connected with a power ground, a second end of the resistor R2 is respectively connected with a base of the NPN triode Q1 and a collector of the NPN triode Q2, an emitter of the NPN triode Q2 is connected with a first end of a resistor R5, a second end of the resistor R5 is connected with a power ground, a second end of the resistor R3 is respectively connected with a first end of a resistor R6 and a first end of a resistor R7, a second end of the resistor R7 is connected with a second end of the resistor R6 is connected with a second end of the built-in diode BAT1, the negative electrode terminal of the built-in power supply BAT2 is connected with the power supply ground; the video image storage end of the controller is connected with the video image storage end of the video image storage module, and the display data end of the controller is connected with the display data end of the naked eye 3D display screen; The controller performs real-time naked eye 3D amblyopia treatment on the video image in the video image storage module, and displays the video image on a naked eye 3D display screen in real time for a amblyopist to train and watch, wherein the preset left eye amblyopia value or/and the preset right eye amblyopia value can be set in the watching process of the amblyopia person, the verification is required in the process of setting the preset left eye amblyopia value or/and the preset right eye amblyopia value, and the left eye amblyopia value or/and the right eye amblyopia value are regulated and the verification method comprises the following steps: s41, whether the controller receives a trigger signal for adjusting left eye amblyopia value or/and right eye amblyopia value: If the controller receives the trigger signal for adjusting the left eye amblyopia value or/and the right eye amblyopia value, the controller verifies that the trigger signal passes the step S42, and the method for verifying that whether the trigger signal passes the step S comprises the following steps: S411, when the first character is input, the character displayed by the virtual key on the touch display screen changes, and the method for changing the character displayed by the virtual key on the touch display screen comprises the following steps: s411a, coding all virtual keys, and respectively performing an MD5 function algorithm on all display characters to obtain MD5 codes; S411b, converting the MD5 code into decimal system; S411c, arranging the decimal MD5 codes in sequence from small to large, wherein the characters corresponding to the decimal MD5 codes which are arranged in sequence from small to large correspond to the virtual key codes one by one; s411d, after the second bit character is input, performing MD5 function algorithm on all the display characters respectively to obtain MD5 secondary codes; s411e, converting the MD5 secondary code of the code into decimal system; s411f, arranging the decimal MD5 secondary codes in sequence from small to large, wherein the characters corresponding to the decimal MD5 secondary codes which are arranged in sequence from small to large correspond to the virtual key codes one by one; s411g, after the third character is input, performing three MD5 function algorithms on all display characters respectively to obtain three MD5 codes; S411h, converting the MD5 tertiary code into decimal system; s411i, arranging the decimal MD5 tertiary codes in sequence from small to large, wherein the characters corresponding to the decimal MD5 tertiary codes which are arranged in sequence from small to large correspond to the virtual key codes one by one; S411j, after the fourth character is input, performing four MD5 function algorithms on all display characters to obtain MD5 four codes; S411k, converting the MD5 quaternary code into decimal system; S411l, arranging decimal MD5 four times codes in sequence from small to large, wherein the characters corresponding to the decimal MD5 four times codes which are arranged in sequence from small to large correspond to virtual key codes one by one; ;......; Until the verification character is input; s411m, the controller collects the input H-bit verification characters, and performs one-time MD5 function algorithm on the collected H-bit verification characters to obtain MD5 verification codes of the H-bit verification characters; s411n, the controller judges whether the MD5 verification code is consistent with the MD5 preset verification code preset in the controller: if the MD5 verification code is consistent with the MD5 preset verification code preset in the controller, the verification is passed; If the MD5 verification code is inconsistent with the MD5 preset verification code preset in the controller, verification is failed, and a verification character is input again; If the controller does not receive the trigger signal for adjusting the left eye amblyopia value or/and the right eye amblyopia value, continuing waiting; S42, if the controller receives a trigger signal for adjusting the left eye amblyopia value, popping up a left eye amblyopia value option box on the naked eye 3D touch display screen; If the controller receives a trigger signal for adjusting the right eye amblyopia value, popping up a right eye amblyopia value option box on the naked eye 3D touch display screen; if the controller receives a trigger signal for adjusting the left and right eye amblyopia values, popping up a left and right eye amblyopia value option box on the naked eye 3D touch display screen; And S43, if the controller receives the determined trigger control command, the left eye amblyopia value or/and the right eye amblyopia value are adjusted to be corresponding modification values.
  2. 2. The naked eye 3D dual-channel amblyopia data processing system according to claim 1, wherein the naked eye 3D display screen is a naked eye 3D touch display screen, and the touch display data end of the controller is connected with the touch display data end of the naked eye 3D touch display screen.
  3. 3. The naked eye 3D dual-channel amblyopia data processing system according to claim 1, further comprising a data transmission module arranged on the naked eye 3D PCB, wherein the data transmission module is a video image importing module; The video image import end of the controller is connected with the video image end of the video image import module.
  4. 4. The naked eye 3D dual-channel amblyopia data processing system according to claim 3, wherein when the video image importing module is a Micro USB importing module, a video image end of the Micro USB importing module is connected with a video image Micro USB end of the controller.
  5. 5. The naked eye 3D dual-channel amblyopia data processing system according to claim 3, wherein when the video image importing module is a USB Type C importing module, a video image end of the USB Type C importing module is connected with a video image USB Type C end of the controller.
  6. 6. The naked eye 3D dual channel amblyopia data processing system according to claim 3, wherein when the video image importing module is a lighting importing module, a video image end of the lighting importing module is connected with a video image lighting end of the controller.
  7. 7. The naked eye 3D dual-channel amblyopia data processing system according to claim 1, further comprising a data transmission module arranged on the naked eye 3D PCB board, wherein the data transmission module is a network wireless connection module; the network wireless connection end of the network wireless connection module is connected with the network wireless connection end of the controller.
  8. 8. The naked eye 3D dual-channel amblyopia data processing system according to claim 7, wherein when the network wireless connection module is a bluetooth wireless connection module, the network wireless connection end of the bluetooth wireless connection module is connected with the network wireless connection bluetooth end of the controller.
  9. 9. The naked eye 3D dual-channel amblyopia data processing system according to claim 7, wherein when the network wireless connection module is a WiFi wireless connection module, the network wireless connection end of the WiFi wireless connection module is connected with the network wireless connection WiFi end of the controller.
  10. 10. The naked eye 3D dual-channel amblyopia data processing system according to claim 7, wherein when the network wireless connection module is a 3G wireless connection module, the network wireless connection end of the 3G wireless connection module is connected with the network wireless connection 3G end of the controller.
  11. 11. The naked eye 3D dual-channel amblyopia data processing system according to claim 7, wherein when the network wireless connection module is a 4G wireless connection module, the network wireless connection end of the 4G wireless connection module is connected with the network wireless connection 4G end of the controller.
  12. 12. The naked eye 3D dual-channel amblyopia data processing system according to claim 7, wherein when the network wireless connection module is a 5G wireless connection module, the network wireless connection end of the 5G wireless connection module is connected with the network wireless connection 5G end of the controller.
  13. 13. The naked eye 3D double-channel amblyopia data processing system according to claim 1, wherein a voice output module is further arranged on the naked eye 3D PCB, a voice grille is correspondingly arranged on the shell, and a voice end of the voice output module is connected with a voice end of the controller to play voice.
  14. 14. The processing method of the naked eye 3D dual channel amblyopia data processing system according to claim 1, comprising the steps of: s1, acquiring video image data, and taking the video image data as video image data to be played; S2, carrying out real-time naked eye 3D amblyopia treatment on the video image to be played obtained in the step S1 to obtain real-time naked eye 3D amblyopia video image data; And S3, playing the real-time naked eye 3D amblyopia video image data obtained in the step S2 through a naked eye 3D display screen.
  15. 15. The method for processing the naked eye 3D dual-channel amblyopia data processing system according to claim 1, wherein the method for obtaining the MD5 code in step S411a is as follows: Wherein, the MD5 codes corresponding to the characters Y y are respectively Which is a kind of The MD5 code corresponding to the character Y 1 is represented; The MD5 code corresponding to the character Y 2 is represented; MD5 code corresponding to the character Y 3 . Representing characters A corresponding MD5 code; MD5 () represents an MD5 function; Y y denotes the character Y y , Y denotes the character number,
  16. 16. The method for processing the naked eye 3D dual-channel amblyopia data processing system according to claim 1, wherein the method for obtaining the MD5 secondary code in step S411D is as follows: Wherein, the MD5 secondary codes corresponding to the characters Y y are respectively provided with Which is a kind of Representing MD5 secondary codes corresponding to the character Y 1 ; Representing MD5 secondary codes corresponding to the character Y 2 ; The MD5 secondary code corresponding to the character Y 3 . Representing characters Corresponding MD5 secondary codes; MD5 () represents an MD5 function; Y y denotes the character Y y , Y denotes the character number,
  17. 17. The processing method of the naked eye 3D dual-channel amblyopia data processing system according to claim 1, wherein the method for obtaining the MD5 tertiary code in step S411g is as follows: Wherein, the MD5 three-time codes corresponding to the character Y y are respectively provided with Which is a kind of MD5 tertiary code corresponding to character Y 1 ; MD5 tertiary code corresponding to character Y 2 ; The MD5 tertiary code corresponding to the character Y 3 . Representing characters Corresponding MD5 tertiary codes; MD5 () represents an MD5 function; Y y denotes the character Y y , Y denotes the character number,
  18. 18. The method for processing the naked eye 3D dual-channel amblyopia data processing system according to claim 1, wherein the method for obtaining the MD5 quadric code in step S411j is as follows: Wherein MD5 (Y y ) h-1 represents the MD5 function algorithm performed H-1 times on the character Y y , h=1, 2, 3., H represents the total number of bits of the validation character; MD5 quaternary codes corresponding to the character Y y are respectively provided with Which is a kind of MD5 quartic codes corresponding to character Y 1 ; MD5 quartic codes corresponding to character Y 2 ; MD5 quartic codes corresponding to the character Y 3 . Representing characters Corresponding MD5 quaternary codes; MD5 () represents an MD5 function; Y y denotes the character Y y , Y denotes the character number,

Description

Naked eye 3D double-channel amblyopia data processing system The application discloses a division application of 'naked eye 3D double-channel data processing system' of application number 2021101589066 and application day 2021, 02 and 04. Technical Field The invention relates to the technical field of amblyopia treatment, in particular to a naked eye 3D double-channel amblyopia data processing system. Background Amblyopia training is a long-term process, and the treatment effect is closely related to the interest of children in training modes and compliance degree. It is therefore important to select a training regimen that the child is interested in. The traditional training method has the defects of single form, insufficient interestingness and the like, so that the children are difficult to train constantly, and the treatment effect is influenced. The vision training system technology has the advantages which are not possessed by the traditional modes such as form diversification, training fun and the like. Because amblyopia training must be carried out daily and should not be interrupted, each training of each infant is impossible to carry out in a hospital under the limitation of objective conditions, and proper training in the home is necessary and is also an important guarantee of treatment effect. Patent application number 2020103882911, named "gambling, memory amblyopia training method and system", displays noise interference background and preset directed amblyopia training target optotype on training page; the method comprises the steps of randomly displaying a preset number of amblyopia training optotypes with different directions on a noise interference background, monitoring a trigger track on a training page in real time, judging whether the trigger track is marked by the randomly displayed amblyopia training optotypes, adding a score if the marked amblyopia training optotypes are the same as the amblyopia training optotypes in directions, subtracting the score if the marked amblyopia training optotypes are different in directions, entering a higher next level when the statistical score reaches a preset score, increasing the interference of the noise interference background, and increasing the display quantity and display frequency of the amblyopia training optotypes and reducing the size. By the technical scheme of the invention, various visual functions and visual skills of a patient are improved, the eyesight of amblyopia eyes is improved, and meanwhile, the richness, the interestingness and the effectiveness are increased. Disclosure of Invention The invention aims at least solving the technical problems in the prior art, and particularly creatively provides a naked eye 3D double-channel amblyopia data processing system. In order to achieve the above purpose, the invention provides a naked eye 3D double-channel amblyopia data processing system, which comprises a naked eye 3D intelligent mobile handheld terminal, wherein the naked eye 3D intelligent mobile handheld terminal comprises a shell, a naked eye 3D PCB fixing mounting seat for fixedly mounting a naked eye 3D PCB is arranged in the shell, the naked eye 3D PCB is fixedly mounted on the naked eye 3D PCB fixing mounting seat, a controller and a video image storage module are arranged on the naked eye 3D PCB, and a naked eye 3D display screen is arranged on the surface of the shell; The video image storage end of the controller is connected with the video image storage end of the video image storage module, and the display data end of the controller is connected with the display data end of the naked eye 3D display screen; The controller performs real-time naked eye 3D amblyopia treatment on the video images in the video image storage module, and displays the video images on a naked eye 3D display screen in real time for a amblyopia person to train and watch. In a preferred embodiment of the present invention, the naked eye 3D display screen is a naked eye 3D touch display screen, and the touch display data end of the controller is connected with the touch display data end of the naked eye 3D touch display screen. In a preferred embodiment of the invention, the system further comprises a data transmission module arranged on the naked eye 3D PCB, wherein the data transmission module comprises a video image importing module or/and a network wireless connecting module; The video image input end of the controller is connected with the video image end of the video image input module, and the network wireless connection end of the network wireless connection module is connected with the network wireless connection end of the controller. In a preferred embodiment of the present invention, the video image importing module includes one or any combination of a Micro USB importing module, a USB Type C importing module, and a lighting importing module; When the video image import module is a Micro USB import module, the video image end of the Micr