CN220439252U - Strabismus intelligent analysis terminal - Google Patents

Abstract

The utility model discloses a strabismus intelligent analysis terminal, which comprises: the information acquisition module is used for acquiring the strabismus images of the eyes of the patient and sending the strabismus images to the analysis processing module; the analysis processing module is used for receiving the eye strabismus image of the patient and analyzing out eye strabismus analysis data; the input module is used for importing case data input by a user; the storage module is used for storing the eye strabismus analysis data and the case data; the display module is used for displaying the eye strabismus analysis data and the case data; and the communication module is used for sending the eye strabismus analysis data and the case data to the diagnosis result and the operation amount of the remote server. According to the utility model, the functions of video display, strabismus detection, diagnosis operation and the like are integrated on the strabismus intelligent analysis terminal, and eye strabismus analysis data are remotely transmitted to the cloud server for analysis, so that more accurate diagnosis results and operation suggestions are obtained, and the accuracy and efficiency of diagnosis and strabismus treatment of doctors are improved.

Description

Strabismus intelligent analysis terminal

Technical Field

The utility model relates to the technical field of vision inspection devices, in particular to an intelligent strabismus analysis terminal.

Background

The diagnosis and treatment levels of strabismus are greatly different in the state at present, and the lack of unified standards causes the strabismus operation design to be quite different. The experience dependence is high, the learning period is long, and even some doctors may not learn. Because of lack of standards and poor scientificity, the strabism inspection device in the prior art needs to carry out a plurality of tests and measurements, has a complicated process, needs a long time, is mostly manually operated, cannot realize intellectualization, and cannot analyze and process inspection results. Therefore, the development of the strabismus intelligent terminal is needed to help an ophthalmologist to better master the strabismus operation design, so that the learning period is shortened, and the success rate of the operation is improved.

Disclosure of Invention

In order to better improve diagnosis efficiency of a doctor on strabismus examination, the utility model provides the strabismus intelligent analysis terminal which is used for remotely transmitting eye strabismus analysis data to a cloud server for analysis so as to acquire more accurate diagnosis results and operation suggestions, thereby improving accuracy and efficiency of diagnosis and treatment of strabismus of the doctor.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a strabismus intelligent analysis terminal, which comprises:

the information acquisition module is used for acquiring the strabismus information of the eyes of the patient and sending the strabismus information to the analysis processing module;

the analysis processing module is used for receiving the eye strabismus information of the patient and analyzing out eye strabismus analysis data;

the input module is used for importing clinical data, biological information and medical equipment data of a patient input by a user;

the storage module is used for storing clinical data, biological information, medical equipment data and eye strabismus analysis data of a patient;

the display module is used for displaying clinical data, biological information, medical equipment data and eye strabismus analysis data of a patient;

the communication module is used for storing clinical data, biological information, medical equipment data and ocular strabismus analysis data of a patient through the storage module and then sending the clinical data, the biological information, the medical equipment data and the ocular strabismus analysis data to the analysis processing module for data analysis processing _；

The information acquisition module is connected with the analysis processing module, the analysis processing module is respectively connected with the storage module, the input module and the display module, the storage module is connected with the communication module and the input module, and the display module is connected with the communication module.

The utility model integrates the functions of video display, strabismus detection, diagnosis operation and the like on the strabismus intelligent analysis terminal, acquires the strabismus image of the eyes of the patient through the information acquisition module, and sends the strabismus image to the analysis processing module for analysis to obtain the strabismus analysis data of the eyes. The analysis data is then stored in the memory module and presented via the display module. Meanwhile, the data are sent to a remote server through a communication module, and information such as diagnosis results and operation amount of the server based on the eye strabismus analysis data are obtained. The whole terminal can effectively improve the analysis and diagnosis speed and accuracy of the ophthalmic strabismus case by the ophthalmologist, and provides better strabismus diagnosis and treatment service for patients.

In an embodiment, the input module is further configured to import the case query condition input by the user, store the case query condition in the storage module, and send the case query condition to the analysis processing module for data analysis processing.

In one embodiment, the input module includes: a mouse and a keyboard.

In an embodiment, the information acquisition module includes:

the camera is used for shooting an eye strabismus image of a patient on site, and an optical sensor is arranged in the camera and is used for converting an optical signal into an electric signal;

the signal processing unit is used for converting the electric signals to obtain digital signals;

the USB interface is used for transmitting the digital signals to the analysis processing module;

the signal processing unit is respectively connected with the camera and the USB interface, and the USB interface is connected with the analysis processing module.

The information acquisition module in this embodiment includes camera, signal processing unit and USB interface, and signal processing unit effectively improves signal quality, and the USB interface can the quick transmission digital signal to analysis processing module to gather patient's eye strabismus image effectively to transmit it to analysis processing module and carry out analysis and processing.

In an embodiment, the communication module is further configured to send the ocular strabismus analysis data to a mobile device for reference by a user.

In one embodiment, the display module includes:

the display screen is used for displaying diagnosis results of the eye strabismus analysis data and acquiring clinical data, biological information, medical equipment data and case query conditions of a patient input by a user;

the display controller is used for connecting to the display through the graphic interface and controlling the display content and resolution of the display screen;

the audio processor is connected with the analysis processing module through an audio interface and is used for outputting sound and controlling volume;

the network interface is used for connecting the analysis processing module to the Internet or the mobile equipment in a network cable or wireless connection mode;

the display screen is connected with the display controller, and the display controller is connected with the audio processor and the network interface.

The display screen in the display module in the embodiment can clearly display the diagnosis result of the eye strabismus analysis data, the display controller enables the data to be displayed more clearly and accurately, the audio processor can be connected with the analysis processing module through the audio interface to provide a convenient operation mode, the network interface enables the data to be timely transmitted to the remote server, the diagnosis result is comprehensive and accurate, and the display module enables the data to be displayed and transmitted more conveniently.

In an embodiment, the storage module is further configured to store a query result generated based on the case query condition and a strabismus surgery teaching video;

the display module is also used for displaying teaching videos for strabismus surgery.

The storage module in the embodiment can store the query result and the strabismus operation teaching video generated by the remote server based on the case query condition, and display the query result and the strabismus operation teaching video on the display module, so that a doctor can conveniently query and learn, and the diagnosis efficiency of the doctor is improved.

In one embodiment, the analysis processing module includes:

the central processing unit is used for receiving the eye strabismus image and analyzing out eye strabismus analysis data;

the image processor is used for accelerating the processing and presentation of the eye strabismus image and the strabismus operation teaching video;

a data bus for transmitting data and control signals;

the input/output interface is used for connecting the information acquisition module, the storage module, the display module and the communication module and is used for inputting and outputting data;

the CPU is connected with the data bus and the graphic processor, the graphic processor is connected with the data bus, the data bus is connected with the input/output interface, and the input/output interface is connected with the communication module, the display module, the storage module and the information acquisition module.

The analysis processing module in the embodiment can receive the eye strabismus image and analyze eye strabismus analysis data, so that the processing and the presentation of the eye strabismus image and strabismus operation teaching video are accelerated, the data sharing and the communication among the modules are realized, and the speed and the accuracy of data transmission are increased.

In one embodiment, the communication module comprises:

the communication unit is connected with the interface configuration unit and the display module and is used for data transmission and communication protocol conversion;

the interface protocol configuration unit is used for configuring a preset interface protocol for the communication unit.

The interface protocol configuration unit in the communication module in the embodiment configures different interface protocols according to different requirements, and invokes the data transmitted on the remote server address through the communication unit, thereby enhancing the practicability, the configuration flexibility and the reliability.

According to the strabismus intelligent analysis terminal provided by the utility model, the information acquisition module is used for acquiring the strabismus images of the eyes of the patient, the analysis processing module is used for analyzing the strabismus analysis data of the eyes, and the data are stored in the storage module and then displayed on the display module. The doctor can analyze the eye condition of the patient more accurately and provide more accurate diagnosis results and operation advice. The terminal integrates multiple functions such as video display, strabismus detection and diagnosis operation, can simultaneously complete multiple tasks, reduces the workload of doctors, and improves the working efficiency. And meanwhile, the eye strabismus analysis data are sent to a remote server for analysis, and a doctor obtains the eye strabismus condition of a patient through a cloud server to provide more comprehensive diagnosis and treatment advice for the patient.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a structural diagram of an example of a squint intelligent analysis terminal provided in an embodiment of the present utility model;

fig. 2 is a device connection diagram of a specific example of a squint intelligent analysis terminal provided in an embodiment of the present utility model;

fig. 3 is a device connection diagram of another specific example of a squint intelligent analysis terminal provided in an embodiment of the present utility model;

fig. 4 is a device connection diagram of another specific example of a squint intelligent analysis terminal provided in an embodiment of the present utility model;

fig. 5 is a device connection diagram of still another specific example of a squint intelligent analysis terminal provided in an embodiment of the present utility model.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In addition, the technical features of the different embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Examples

The strabismus intelligent analysis terminal provided in this embodiment includes: the system comprises an information acquisition module, an analysis processing module, a storage module, a display module and a communication module. The information acquisition module is located the side of strabismus intelligent analysis terminal and gathers patient's eye strabismus image, and analysis processing module is located the central point of strabismus intelligent analysis terminal, and storage module is located the inside of strabismus intelligent analysis terminal, and display module is located the front position of strabismus intelligent analysis terminal and shows, and communication module is located the bottom and the back of strabismus intelligent analysis terminal.

The modules are connected with the cable through the internal circuit board, and specific connection modes comprise cables, plugs, interfaces and the like. It should be noted that, the above-mentioned processor control main board may be a single chip microcomputer, and the generated instruction is also a simple functional instruction, and does not involve a complex algorithm flow.

The utility model provides a strabismus intelligent analysis terminal, as shown in fig. 1, comprising: an information acquisition module 1, an analysis processing module 2, an input module 3, a storage module 4, a display module 5, a communication module 6, wherein,

the information acquisition module 1 is used for acquiring the strabismus images of the eyes of the patient and sending the strabismus images to the analysis processing module 2. Referring to fig. 2, the information acquisition module 1 includes: the camera 11 is used for shooting an eye strabismus image of a patient on site, an optical sensor is arranged in the camera and converts an optical signal into an electric signal, the camera 11 can be a CMOS or CCD image sensor and is used for acquiring a high-definition image, and the embodiment is not limited to the embodiment; a signal processing unit 12, configured to convert the electrical signal to obtain a digital signal, where the signal processing unit includes an analog-to-digital converter (ADC) and a Digital Signal Processor (DSP), and is configured to convert an analog signal captured by the camera 11 into a digital signal, so as to perform subsequent digital signal processing; the USB interface 13 is configured to transmit the digital signal to the analysis processing module 2, and the USB interface may be connected to a USB socket on the analysis processing module 2 so as to transmit the acquired eye view image to the analysis processing module 2 for analysis processing. Through the combination of the camera 11, the signal processing unit 12 and the USB interface 13, the information acquisition module 1 can realize rapid acquisition and digital processing of the strabismus images of the eyes of the patient, and transmits digital signals to the analysis processing module 2 for subsequent analysis.

And the analysis processing module 2 is used for receiving the eye strabismus image of the patient and analyzing out eye strabismus analysis data. Referring to fig. 3, the analysis processing module 2 includes: the central processing unit 21 is used for receiving the eye strabismus image and analyzing the eye strabismus analysis data, the central processing unit 21 is a core part of the whole analysis processing module 2 and is used for processing the data of the eye strabismus image, processing and analyzing the image to finally obtain strabismus analysis data (it is to be noted that the process of processing and analyzing the acquired data of the eye strabismus image by the central processing unit 21 in the embodiment adopts the existing mature algorithm, extracting the information of the image to obtain the strabismus analysis data), the algorithm is mainly used for processing the data submitted by a user, extracting useful characteristic data, analyzing and judging according to the characteristic data, and finally returning diagnosis results, operation amount, case information or operation teaching video and the like, thereby improving the diagnosis accuracy and efficiency; the graphic processor 22 is used for accelerating the processing and presentation of the strabismus images and the strabismus operation teaching videos, and the graphic processor 22 is a special processor used for processing the images and the videos, so that the speed and the efficiency of the image and the video processing can be greatly improved; the data bus 23 is a wire for transmitting data and control signals, and is a data transmission channel connecting the respective parts inside the analysis processing module 2, transmitting data and control signals from one part to the other; the input/output interface 24 is an interface for connecting the information acquisition module 1, the storage module 4, the display module 5, and the communication module 6, and is used for input/output of data.

The input module 3 is used for acquiring the clinical data, the biological information and the medical equipment data of the patient input by the user, and sending the clinical data, the biological information and the medical equipment data to a remote server through the communication module 6. And the system is also used for acquiring case query conditions input by a user, storing the case query conditions by the storage module and transmitting the case query conditions to a remote server through the communication module. The input module 3 includes: a mouse and a keyboard. When the user operates the mouse and the keyboard, the input module 3 receives corresponding signals, the central processing unit processes the signals, and finally, query conditions input by the user are sent to the remote server for analysis and query.

And the storage module 4 is used for storing clinical data, biological information, medical equipment data and eye strabismus analysis data of patients. The storage module 4 is also used for storing query results and strabismus surgery teaching videos generated by the remote server based on case query conditions; the storage module 4 specifically stores analysis data of the strabismus of the eyes, including various indexes, treatment schemes, effects and other information of the strabismus of the eyes of the patients. Meanwhile, the storage module 4 can be used for storing information such as eye strabismus analysis data, query results, strabismus operation teaching videos and the like in a database. The storage module 4 may also be a storage device, and as a storage database, include a hard disk, a flash memory, and the like.

The display module 5 is used for displaying clinical data, biological information, medical equipment data and eye strabismus analysis data of patients and also used for displaying strabismus operation teaching videos. Referring to fig. 4, the display module 5 includes: the display screen 51 is used for displaying the diagnosis result of the eye strabismus analysis data, and also used for acquiring the case query condition input by the user, sending the case query condition to a remote server through the communication module 6, and realizing the diagnosis through a touch screen and the like. The display screen 51 is tiled and combined by one or more liquid crystal panels to provide higher resolution and larger display area; a display controller 52 for connecting to the display screen 51 through a graphic interface, controlling the display content and resolution of the display screen 51, the display controller 52 receiving the display data from the analysis processing module 2 and converting it into a format and resolution suitable for the display screen 51; the audio processor 53, which is connected to the analysis processing module 2 through an audio interface, is used for outputting sound and controlling volume, and may be a separate audio processing device or the audio processor 53 integrated in the analysis processing module 2. The method is used for outputting sound and controlling volume, increasing or decreasing the volume level of audio, or carrying out equalization, compression and other treatments on the audio; the network interface 54 is used for connecting the analysis processing module 2 to the internet or the mobile device through a network cable or a wireless connection mode, and can be an RJ-45 ethernet interface, a Wi-Fi interface, a bluetooth interface and the like, and is reasonably arranged according to the network environment in practical application.

The communication module 6 transmits the patient clinical data, the biological information, the medical equipment data and the eye strabismus analysis data to a remote server, and receives the diagnosis result and the operation amount fed back by the remote server based on the received data. The communication module 6 is further configured to send the ocular strabismus analysis data to the mobile device for reference by a user. Referring to fig. 5, the communication module 6 includes: the communication unit 61 is used for transmitting data and converting communication protocols, packaging and transmitting data generated by the devices, decoding and processing the received data, converting communication protocols, and converting communication protocols between different devices to realize data exchange between the devices. An interface protocol configuration unit 62, configured to configure a preset interface protocol for the communication unit. The communication units preset different communication protocols to adapt to the communication requirements among different units.

It should be noted that, the algorithms integrated in the modules involved in the embodiment are all existing mature algorithm models, and the instructions sent by the control motherboard and the central processing unit in the computer structure are also simple functional instructions, so that complex algorithm flows are not involved.

According to the strabismus intelligent analysis terminal provided by the utility model, the information acquisition module is used for acquiring the strabismus images of the eyes of the patient, the analysis processing module is used for analyzing the strabismus analysis data of the eyes, and the data are stored in the storage module and then displayed on the display module. The doctor can analyze the eye condition of the patient more accurately and provide more accurate diagnosis results and operation advice. The terminal integrates multiple functions such as video display, strabismus detection and diagnosis operation, can simultaneously complete multiple tasks, reduces the workload of doctors, and improves the working efficiency. And meanwhile, the eye strabismus analysis data are sent to a remote server for analysis, and a doctor obtains the eye strabismus condition of a patient through a cloud server to provide more comprehensive diagnosis and treatment advice for the patient.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present utility model.

Claims (9)

1. The utility model provides a strabismus intelligent analysis terminal which characterized in that includes:

the information acquisition module is used for acquiring the strabismus information of the eyes of the patient and sending the strabismus information to the analysis processing module;

the analysis processing module is used for receiving the eye strabismus information of the patient and analyzing out eye strabismus analysis data;

the input module is used for importing clinical data, biological information and medical equipment data of a patient input by a user;

the storage module is used for storing clinical data, biological information, medical equipment data and eye strabismus analysis data of a patient;

the display module is used for displaying clinical data, biological information, medical equipment data and eye strabismus analysis data of a patient;

the communication module is used for storing clinical data, biological information, medical equipment data and ocular strabismus analysis data of a patient through the storage module and then sending the clinical data, the biological information, the medical equipment data and the ocular strabismus analysis data to the analysis processing module for data analysis processing _；

The information acquisition module is connected with the analysis processing module, the analysis processing module is respectively connected with the storage module, the input module and the display module, the storage module is connected with the communication module and the input module, and the display module is connected with the communication module.

2. The terminal according to claim 1, wherein the input module is further configured to import case query conditions input by a user, store the case query conditions in the storage module, and send the case query conditions to the analysis processing module for data analysis processing.

3. A terminal according to claim 1 or 2, characterized in that the input module comprises: a mouse and a keyboard.

4. The terminal of claim 1, wherein the information acquisition module comprises:

the camera is used for shooting an eye strabismus image of a patient on site, and an optical sensor is arranged in the camera and is used for converting an optical signal into an electric signal;

the signal processing unit is used for converting the electric signals to obtain digital signals;

the USB interface is used for transmitting the digital signals to the analysis processing module;

the signal processing unit is respectively connected with the camera and the USB interface, and the USB interface is connected with the analysis processing module.

5. The terminal of claim 1, wherein the communication module is further configured to send ocular strabismus analysis data to a mobile device for reference by a user.

6. The terminal of claim 1, wherein the display module comprises:

the display screen is used for displaying diagnosis results of the eye strabismus analysis data and acquiring clinical data, biological information, medical equipment data and case query conditions of a patient input by a user;

the display controller is used for connecting to the display through the graphic interface and controlling the display content and resolution of the display screen;

the audio processor is connected with the analysis processing module through an audio interface and is used for outputting sound and controlling volume;

the network interface is used for connecting the analysis processing module to the Internet or the mobile equipment in a network cable or wireless connection mode;

the display screen is connected with the display controller, and the display controller is connected with the audio processor and the network interface.

7. The terminal according to claim 2 or 6, wherein the storage module is further configured to store a query result generated based on a case query condition and a strabismus surgery teaching video;

and the display module is also used for displaying the strabismus operation teaching video.

8. The terminal of claim 7, wherein the analysis processing module comprises:

the central processing unit is used for receiving the eye strabismus image and analyzing out eye strabismus analysis data;

the image processor is used for accelerating the processing and presentation of the eye strabismus image and the strabismus operation teaching video;

a data bus for transmitting data and control signals;

the input/output interface is used for connecting the information acquisition module, the storage module, the display module and the communication module and is used for inputting and outputting data;

the CPU is connected with the data bus and the graphic processor, the graphic processor is connected with the data bus, the data bus is connected with the input/output interface, and the input/output interface is connected with the communication module, the display module, the storage module and the information acquisition module.

9. The terminal of claim 1, wherein the communication module comprises:

the communication unit is connected with the interface protocol configuration unit and the display module and is used for data transmission and communication protocol conversion;

the interface protocol configuration unit is used for configuring a preset interface protocol for the communication unit.