WO2019006925A1

WO2019006925A1 - Chronic disease data backup apparatus and method based on binary conversion and image recognition

Info

Publication number: WO2019006925A1
Application number: PCT/CN2017/108182
Authority: WO
Inventors: 张贯京; 葛新科; 王海荣; 张红治; 周亮
Original assignee: 深圳市前海安测信息技术有限公司
Priority date: 2017-07-01
Filing date: 2017-10-28
Publication date: 2019-01-10
Also published as: CN107301107A

Abstract

A chronic disease data backup apparatus and method based on binary conversion and image recognition. The method comprises: a first data processing device receives chronic disease data to be backed up from a first server (S11); the first data processing device converts the chronic disease data to be backed up to binary codes (S12); the first data processing device controls a voice playing device to play the binary codes (S13); a second data processing device controls a recording device to record the played binary codes (S14); the second data processing device recognizes the recorded binary codes by means of a voice recognition algorithm (S15); the second data processing device restores the recognized binary codes to corresponding chronic disease data (S16); the first data processing device displays the chronic disease data to be backed up on a display (S17); the second data processing device controls a camera to photograph the chronic disease data on the display and generates an image file (S18); the second data processing device associates the restored chronic disease data with the image file, and stores same in a second server (S19). Accordingly, the data security between different servers is effectively improved.

Description

Slow disease data backup device and method based on binary conversion and image recognition

[0001] The present invention relates to the field of medical informationization, and in particular, to a chronic disease data backup apparatus and method based on binary conversion and image recognition.

Background technique

[0002] Chronic disease data is the original record of the whole process of diagnosis and treatment of chronic patient groups. By regularly viewing chronic disease data of chronic patient groups, it can effectively monitor and improve the health of chronic patient groups and avoid further deterioration of the chronic patient population.

[0003] Further, in general, chronic disease data is stored in a medical information system of a medical institution, and in order to prevent the collapse of the medical information system, the medical information system needs to periodically migrate the chronic disease data for backup prevention. A data crash has occurred. The existing chronic disease data migration is direct information data transmission between different servers, that is, the servers are interconnected. If one of the servers is attacked by the network, it will be transmitted to other servers. Therefore, the information data is directly transmitted. The way to back up data, security is not high.

technical problem

[0004] The main object of the present invention is to provide a device and method for backing up chronic disease data based on binary conversion and image recognition, which aims to solve the problem that the existing data backup technology is not safe due to the direct transmission of data. technical problem.

[0005] In order to achieve the above object, the present invention provides a chronic disease data backup device based on binary conversion and image recognition, including a first data processing device, a voice playback device, a recording device, and a second data processing device, a data processing device is coupled to the voice playback device, the second data processing device is coupled to the recording device, the first data processing device is further in communication with a first server, and the second data processing device is further The second server is connected, wherein:

[0006] the first data processing apparatus is configured to receive chronic disease data to be backed up from a first server and convert the chronic disease data into a binary code, and control the voice playback device to play the binary code;

[0007] the second data processing device is configured to: when the voice playback device plays a binary code, control the The recording device records the binary code played; and

[0008] the second data processing device is further configured to identify the recorded binary code by using a voice recognition algorithm, and restore the corresponding chronic disease data according to the identified binary code;

[0009] the first data processing device is further configured to display the chronic disease data to be backed up on the display;

[0010] the second data processing device is further configured to control the camera to capture the chronic disease data on the display, and generate an image file;

[0011] The second data processing device is further configured to associate and save the restored chronic disease data and the image file in the second server.

[0012] Preferably, when the first data processing device outputs a binary code to the voice playback device, the voice playback device plays each binary code one by one.

[0013] Preferably, the second data processing device is further configured to identify the content in the image file by using built-in text recognition software, and further associate the content in the identified image file with the template file.

[0014] Preferably, the voice playback device and the recording device are not connected by wired or wireless communication.

The first data processing device and the second data processing device are also not connected by wired or wireless communication.

[0015] Preferably, the first data processing device calls the built-in binary code transcoding software to convert the chronic disease data into a binary code, and the second data processing device calls the built-in binary code transcoding software to identify the binary. The code restores the corresponding chronic disease data.

[0016] In another aspect, the present invention further provides a method for backing up chronic disease data based on voice recognition, which is applied to a chronic disease data backup device based on binary conversion and image recognition, and the chronic disease based on binary conversion and image recognition The data backup device includes a first data processing device, a voice playback device, a recording device, and a second data processing device, wherein the first data processing device is connected to the voice playback device, the second data processing device is The recording device is connected, the first data processing device is further communicatively coupled to the first server, and the second data processing device is further coupled to the second server, the method comprising the steps of:

[0017] the first data processing device receives the chronic disease data to be backed up from the first server;

[0018] the first data processing device converts chronic disease data into a binary code;

[0019] the first data processing device controls the voice playback device to play the binary code; [0020] when the voice playback device plays a binary code, the second data processing device controls the recording device to record the played binary code;

[0021] the second data processing device identifies the recorded binary code by a voice recognition algorithm;

[0022] the second data processing device restores the corresponding chronic disease data according to the identified binary code;

[0023] the first data processing device displays the chronic disease data to be backed up on the display;

[0024] the second data processing device controls the camera to capture the chronic disease data on the display, and generates an image file

; and

[0025] The second data processing device associates and restores the restored chronic disease data and the image file to the second server.

[0026] Preferably, when the first data processing device outputs a binary code to the voice playback device, the voice playback device plays each binary code one by one.

[0027] Preferably, the second data processing device is further configured to identify the content in the image file by using built-in text recognition software, and further associate the content in the identified image file with the template file.

[0028] Preferably, the voice playback device and the recording device are not connected by wired or wireless communication.

[0029] Preferably, the first data processing device calls the built-in binary code transcoding software to convert the chronic disease data into a binary code, and the second data processing device calls the built-in binary code transcoding software to identify the binary. The code restores the corresponding chronic disease data.

Problem solution

Technical solution

[0030] The present invention adopts the above technical solution, and brings the technical effects as follows: The present invention uses physical isolation between the first server and the second server to perform data backup, thereby avoiding the contagion of the network attack caused by direct data transmission. When the first server is attacked by a network attack, the second server as a backup is not subject to network attacks, which effectively improves data security between different servers.

Advantageous effects of the invention

Beneficial effect

[0031] The present invention adopts the above technical solution, and brings the technical effects as follows: The present invention is in the first server and the second service. The physical isolation between the servers is used for data backup, which avoids the contagion of network attacks caused by direct data transmission. When the first server is attacked by a network attack, the second server is not attacked by the network. Effectively improve data security between different servers.

Brief description of the drawing

DRAWINGS

1 is a schematic diagram of an application environment of a chronic disease data backup device based on binary conversion and image recognition according to the present invention;

2 is a flow chart of a preferred embodiment of a speech recognition based chronic disease data backup method of the present invention.

[0034] The objects, features, and advantages of the present invention will be further described in conjunction with the embodiments.

BEST MODE FOR CARRYING OUT THE INVENTION

The specific embodiments, structures, features and functions of the present invention are described in detail below with reference to the accompanying drawings and preferred embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

[0036] Referring to FIG. 1, FIG. 1 is a schematic diagram of an application environment of a chronic disease data backup device based on binary conversion and image recognition according to the present invention.

[0037] The chronic disease data backup device 2 based on binary conversion and image recognition is communicatively coupled to the first server 1 and the second server 3. The binary data conversion and image recognition based chronic disease data backup device 2 can access the first server 1 (or the second server 3) and acquire various types from the first server 1 (or the second server 3) Chronic data. The chronic disease data includes, but is not limited to, the patient's name, the patient's name, the diseased day, the chronic disease name, the cause of the disease, the chronic disease diagnosis information, the name of the drug, the number of drugs, the name of the doctor, the hospital and the department, and the expenses And the patient's contact information (for example, email address, mobile phone number, instant messaging account, etc.), chronic illness encyclopedia, government medical policy documents and other information.

[0038] The first server 1 provides a data import interface (for example, an application interface, Application)

Program Interface, API), the device or system accessing the data import interface can obtain the chronic disease data from the first server 1.

[0039] the second server 3 provides a data import interface (for example, an application program interface, Application) Program Interface (API), a device or system that accesses the data import interface can obtain chronic disease data from the second server 3.

[0040] It should be noted that the second server 3 is a backup server of the first server 1, and the chronic disease data in the first server 1 can be migrated to the second server 3 for backup. The first server 1 and the second server 3 may be, but are not limited to, a server (e.g., a blade server) for storing data. In other embodiments, in order to cope with the huge data storage, the first server 1 and the second server 3 may be replaced by a computer cluster (i.e., a data center) composed of a plurality of servers.

In this embodiment, the chronic disease data backup device 2 based on binary conversion and image recognition can be communicably connected to the first server 1 and the second server 3 via a wired network or a wireless network.

[0042] The chronic disease data backup device 2 based on binary conversion and image recognition includes a first data processing device 20, a voice playback device 22, a recording device 24, a second data processing device 26, a display 28, and a camera 29. The first data processing device 20 is connected to the voice playback device 22 and the display 28, and the second data processing device 26 is connected to the recording device 24 and the camera 29.

[0043] Further, the first data processing device 20 is in communication connection (wired or wireless connection) with the first server 1 for acquiring chronic disease data from the first server 1.

[0044] Specifically, the first data processing device 20 acquires the chronic disease data of the first server 1 at a specific interval (for example, 2:00 to 4:00 every night), and converts the chronic disease data into a binary code. .

[0045] In this embodiment, the first data processing device 20 invokes built-in binary code transcoding software (eg, a Unicode transcoder or a binary code transcoder installed on the first data processing device 20, etc.) Convert chronic disease data to binary code.

[0046] The first data processing device 20 also controls the voice playback device 22 to play the binary code. Specifically, the voice playback device 22 is a specific small speaker. When the first data processing device 20 outputs a binary code to the voice playback device 22, the voice playback device 22 plays each binary code one by one. It should be noted that, in order to avoid the confusion of the binary code of the chronic disease data of different types and different data units, after the first data processing device 20 converts the binary code of the chronic disease data, the language playback device 22 is then played. The binary code of the pen chronic disease data. In other embodiments, the voice playback device 22 sets a preset interval between the binary codes corresponding to different batches of chronic disease data. Specifically, after the binary code corresponding to the chronic disease data is played, After three seconds of interval, play the next slow The binary code corresponding to the disease data.

[0047] When the voice playback device 22 plays a binary code, the second data processing device 26 controls the recording device 24 to record the played binary code. It should be noted that the voice playback device 22 and the recording device 24 are not connected by wired or wireless communication, and the first data processing device 20 and the second data processing device 26 are not connected by wired or wireless communication. In other words, the first data processing device 20 and the second data processing device 26 are physically isolated to avoid direct data transmission. When the first server 1 is attacked by the network attack, since the first data processing device 20 and the second data processing device 26 are physically isolated, the second server 3 as the backup is not attacked by the network, and is effective. Improved data security between different servers.

[0048] Further, the second data processing device 26 identifies the recorded binary code by a voice recognition algorithm, and the second data processing device 26 restores the corresponding chronic disease data according to the identified binary code and saves it in the first In the second server 3, the data backup from the first server 1 is completed to the second server 3. Specifically, the second data processing device 26 calls the built-in binary code transcoding software (for example, a Unicode transcoder or a binary code transcoder installed on the second data processing device 26, etc.) to restore the corresponding slowness. Disease data.

[0049] In this embodiment, the first data processing device 20 and the second data processing device 26 are both provided with binary code conversion software for converting chronic disease data into binary codes or reducing binary codes to chronic diseases. data. The binary code conversion software may be, but is not limited to, any other binary code conversion software such as a Unicode code converter or a binary code converter. The first data processing device 20 and the second data processing device 26 may be, but are not limited to, a personal computer, a server (eg, a blade server), and the like, capable of converting chronic disease data into a binary code and capable of restoring the binary code. A computing device for chronic disease data.

[0050] The first data processing device 20 displays the chronic disease data to be backed up on the display 28. Specifically, to increase the clarity and visibility of chronic disease data, the display 28 employs a larger display (e.g., a display of 40 inches or more). It should be noted that the data on the display 28 is not a binary code.

[0051] The second data processing device 26 controls the camera 29 to capture the chronic disease data on the display 28 and generate an image file. The image file may be a video file or a picture file. In this embodiment, the image The file is an image file.

[0052] The second data processing device 26 associates and saves the restored chronic disease data and the image file in the second server 3, thereby completing data backup from the first server 1 to the second server 3. In order to avoid errors in speech recognition and facilitate subsequent file verification, associating image files with restored chronic disease data can solve the problem of data collation accuracy.

In addition, in other embodiments, the second data processing device 26 can also identify the content in the image file by using built-in text recognition software (for example, OCR software), and the identified image file The content is further associated with the reduced chronic disease data, so that the data is backed up in three ways, further improving the reliability of the data backup.

[0054] It should be noted that, in order to improve the definition of the voice playback, the voice playback device 22 adopts a high-fidelity voice player, so that the voice playback is clearer. Since the binary code is simple, the slow disease data is converted into a binary code for playback, which reduces the complexity of speech recognition, improves the accuracy of speech recognition, and can better restore chronic disease data.

Referring to FIG. 2, it is a flow chart of a preferred embodiment of the speech recognition based chronic disease data backup method of the present invention. As shown in FIG. 1, the speech recognition-based chronic disease data backup method is applied to a chronic disease data backup device 1 based on binary conversion and image recognition, and the method includes the following steps:

[0056] Step S11: The first data processing device 20 receives the chronic disease data to be backed up from the first server 1.

Specifically, the first data processing device 20 acquires the chronic disease data of the first server 1 at a certain interval (for example, from 2 o'clock to 4 o'clock every night).

[0058] Step S12: The first data processing device 20 converts the chronic disease data into a binary code. In this embodiment, the first data processing device 20 invokes built-in binary code transcoding software (for example, a Unicode transcoder or a binary code transcoder installed on the first data processing device 20, etc.) to be chronically ill. The data is converted to binary code.

[0059] Step S13: The first data processing device 20 controls the voice playback device 22 to play the binary code. Specifically, the voice playback device 22 is a specific small speaker. When the first data processing device 20 outputs a binary code to the voice playback device 22, the voice playback device 22 plays each binary code one by one. It should be noted that, in order to avoid confusion of binary codes of chronic disease data of different types and different data units, the first data processing device 20 converts a binary code of chronic disease data, followed by That is, the language playback device 22 causes the binary code of the chronic disease data to be played. In other embodiments, the voice playback device 22 plays a binary code corresponding to different batches of chronic disease data at a preset interval (for example, 3 seconds), specifically, a binary code corresponding to a chronic disease data. After completion, the binary code corresponding to the chronic disease data is played after three seconds.

[0060] Step S14: When the voice playback device 22 plays the binary code, the second data processing device 26 controls the recording device 24 to record the played binary code.

[0061] Step S15: The second data processing device 26 identifies the recorded binary code by a speech recognition algorithm.

[0062] Step S16: The second data processing device 26 restores the corresponding chronic disease data according to the identified binary code. Specifically, the second data processing device 26 calls the built-in binary code transcoding software (for example, a Unicode transcoder or a binary code transcoder installed on the second data processing device 26, etc.) to restore the corresponding slowness. Disease data.

[0063] Step S17: The first data processing device 20 displays the chronic disease data to be backed up on the display 28.

Specifically, to increase the clarity and visibility of chronic disease data, the display 28 employs a larger display (e.g., a 40 inch or larger display). It should be noted that the data on display 28 is not a binary code.

[0064] Step S18: The second data processing device 26 controls the camera 29 to capture the chronic disease data on the display 28.

And generate an image file. The image file may be a video file or a picture file. In this embodiment

The image file is a picture file.

[0065] Step S19: The second data processing device 26 associates and saves the restored chronic disease data and the image file in the second server 3, thereby completing data backup from the first server 1 to the second server 3. . In order to avoid the error of speech recognition, it is convenient for subsequent file verification, and the association of image files with restored chronic disease data can solve the problem of data collation accuracy.

[0066] It should be noted that, in order to improve the definition of the voice playback, the voice playback device 22 adopts a high-fidelity voice player, so that the voice playback is clearer. Since the binary code is simple, the slow disease data is converted into a binary code for playback, which reduces the complexity of speech recognition, improves the accuracy of speech recognition, and can better restore chronic disease data.

[0067] Further, in the present invention, no wired or no between the voice playback device 22 and the recording device 24 is used. The line communication method is connected, and the first data processing device 20 and the second data processing device 26 are not connected by wired or wireless communication. In other words, physical isolation is employed between the first data processing device 20 and the second data processing device 26 to avoid direct data transmission. When the first server 1 is attacked by the network attack, since the first data processing device 20 and the second data processing device 26 are physically isolated, the second server 3 as the backup is not attacked by the network, and is effective. Improved data security between different servers.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the contents of the drawings may be directly or indirectly applied to other related The technical field is equally included in the scope of patent protection of the present invention.

Industrial applicability

[0069] The present invention adopts the above technical solution, and brings the technical effects as follows: The present invention uses physical isolation between the first server and the second server to perform data backup, thereby avoiding the contagion of the network attack caused by direct data transmission. When the first server is attacked by a network attack, the second server as a backup is not subject to network attacks, which effectively improves data security between different servers.

Claims

Claim

A chronic disease data backup device based on binary conversion and image recognition, comprising: a first data processing device, a voice playing device, a recording device and a second data processing device, the first data processing device and the voice The second data processing device is connected to the recording device, the first data processing device is further connected to the first server, and the second data processing device is further connected to the second server, wherein The first data processing device is configured to receive chronic disease data to be backed up from the first server and convert the chronic disease data into a binary code, and control the voice playback device to play the binary code; the second data a processing device, configured to: when the voice playback device plays a binary code, control the recording device to record the played binary code; and the second data processing device is further configured to identify the recorded binary code by using a voice recognition algorithm And restoring to the corresponding chronic disease data according to the identified binary code; The data processing device is further configured to display the chronic disease data to be backed up on the display; the second data processing device is further configured to control the camera to capture the chronic disease data on the display, and generate the image file; and the second The data processing device is further configured to associate and save the restored chronic disease data and the image file in the second server.

The chronic disease data backup device based on binary conversion and image recognition according to claim 1

And characterized in that, when the first data processing device outputs the binary code to the voice playback device, the voice playback device plays each binary code one by one.

The second data processing device is further configured to identify the content in the image file by using the built-in character recognition software, and further associate the content in the identified image file with the template file.

The voice playback device and the recording device are not connected by wired or wireless communication, and the first data processing device and the second data processing device are not connected by wired or wireless communication.

The chronic disease data backup device based on binary conversion and image recognition according to claim 1 The first data processing device calls the built-in binary code transcoding software to convert the chronic disease data into a binary code, and the second data processing device calls the built-in binary code transcoding software to identify the binary code. Restore the corresponding chronic disease data.

[Claim 6] A method for backing up chronic disease data based on speech recognition, which is applied to a chronic disease data backup device based on binary conversion and image recognition, characterized in that the chronic disease data backup based on binary conversion and image recognition The device includes a first data processing device, a voice playback device, a recording device, and a second data processing device, wherein the first data processing device is coupled to the voice playback device, the second data processing device and the recording device Connecting, the first data processing device is further communicatively coupled to the first server, the second data processing device is further coupled to the second server, the method comprising the steps of: the first data processing device from the first server Receiving chronic disease data to be backed up; the first data processing device converting the chronic disease data into a binary code; the first data processing device controlling the voice playback device to play the binary code; when the voice playback device plays Binary code 吋, the second data processing device controls the recording device to record a binary code to be played; the second data processing device identifies the recorded binary code by a speech recognition algorithm; the second data processing device restores the corresponding chronic disease data according to the identified binary code; the first data processing The device displays the chronic disease data to be backed up on the display; the second data processing device controls the camera to capture the chronic disease data on the display, and generates an image file; and the second data processing device restores the chronic disease data and The image file is associated and saved in the second server.

[Claim 7] The speech recognition-based chronic disease data backup method according to claim 6, wherein

And when the first data processing device outputs the binary code to the voice playback device, the voice playback device plays each binary code one by one.

[Claim 8] The speech recognition-based chronic disease data backup method according to claim 6, wherein

The second data processing device is further configured to identify the content in the image file by using built-in text recognition software, and further associate the content in the identified image file with the template file.

[Claim 9] The speech recognition-based chronic disease data backup method according to claim 6, wherein The voice playback device and the recording device are not connected by wired or wireless communication, and the first data processing device and the second data processing device are not connected by wired or wireless communication.

[Claim 10] The speech recognition-based chronic disease data backup method according to claim 6, wherein the first data processing device calls the built-in binary code transcoding software to convert the chronic disease data into a binary code. The second data processing device invokes the built-in binary code transcoding software to restore the identified binary code to the corresponding chronic disease data.