CN106503436B - Vision monitoring method and system and household optometry device - Google Patents

Abstract

The invention relates to and provides a vision monitoring method and system. The method comprises the following steps: establishing an information table of a user and a detection doctor; receiving user vision monitoring data periodically sent by an optometry device; generating a monitoring report according to the vision monitoring data and the previous vision monitoring data; and sending the monitoring report to a hospital server according to the information table. The vision monitoring method and the vision monitoring system can realize the tracking and correction of the vision without going out, and medical resources in a specific area can participate in the monitoring of the real-time vision correction under the support of the system, thereby improving the vision correction quality of patients.

Description

Vision monitoring method and system and household optometry device

[ technical field ] A method for producing a semiconductor device

The invention relates to the field of health monitoring, in particular to a vision monitoring method and system and household optometry equipment.

[ background of the invention ]

With the progress of scientific technology and the development of social economy, more and more mobile phones and mobile display terminal products appear, and the short-distance eye use time of teenagers is increased, so that the myopia proportion is on the rise year by year. At present, more and more students wearing glasses in primary school students have the problem that parents are very anxious due to the fact that the degree of the glasses continuously rises for students who have poor eye habits or are prone to myopia due to the fact that the degree of the glasses continuously rises, and therefore daily visual monitoring of teenagers becomes very necessary.

However, the existing vision monitoring needs to go to the ophthalmology optometry and then change the lens, and regular vision monitoring is difficult to realize. Aiming at the conditions that the eyesight is corrected well or the habit of using eyes is not good, the vision change is large, and if protection and correction measures are not taken in time, the vision development of teenagers is influenced.

In the prior art, ophthalmologists see a doctor in a hospital independently, and aiming at some patients needing to track and monitor vision, the doctors cannot establish vision correction tracking.

In view of this, the prior art cannot realize monitoring and tracking of vision correction, and cannot integrate correction resources, which is an urgent problem to be solved in the technical field.

[ summary of the invention ]

The technical problem to be solved by the invention is to provide a vision monitoring method and system, which can realize the tracking and correction of vision without going out, and medical resources in a specific area can participate in the monitoring of real-time vision correction, thereby improving the vision correction quality of patients.

The invention adopts the following technical scheme:

in a first aspect, an embodiment of the present invention provides a vision monitoring method, including: establishing an information table of a user and a detection doctor; receiving user vision monitoring data periodically sent by an optometry device; generating a monitoring report according to the vision monitoring data and the previous vision monitoring data; and sending the monitoring report to a hospital server according to the information table.

Preferably, the optometry device is connected with a network through a wire or a wireless network and stores vision monitoring data periodically checked by a user, and then sends the stored vision monitoring data of the user to the monitoring center.

In order to realize professional vision correction, vision monitoring advice data is fed back to the hospital server after the testing doctor obtains a monitoring report from the hospital server.

The hospital server sends the vision monitoring suggestion data to the monitoring center, and then the vision monitoring suggestion data is pushed to the client and the optometry device by the monitoring center.

The optometry device determines the vision examination reminding time according to the monitoring suggestion data and pushes reminding messages to the client.

The client transmits the interaction information of the user aiming at the monitoring suggestion data to the monitoring center and records the interaction information.

In a second aspect, an embodiment of the present invention provides a vision monitoring system, including: the monitoring center is used for establishing an information table of a user and a doctor for detection, receiving user vision monitoring data periodically sent by the optometry device and generating a monitoring report according to the current vision monitoring data and the previous vision monitoring data; and the monitoring report is sent to the hospital server according to the information table.

The optometry device is connected with a network through a wired or wireless connection mode and comprises a management module and a transceiver module, the management module stores vision monitoring data of a user for periodic examination, and the transceiver module sends the stored vision monitoring data of the user to a monitoring center.

In order to realize professional vision correction, the hospital server comprises a control module, and the detection doctor feeds back vision monitoring suggestion data to the control module after acquiring a monitoring report from the hospital server.

In order to establish the timely monitoring feedback, the hospital server comprises a communication module used for establishing an information table corresponding to the user, the optometry device, the doctor and the client, and the communication module of the hospital server sends the vision monitoring suggestion data to a monitoring center and then the vision monitoring suggestion data is pushed to the client and the optometry device by the monitoring center.

Preferably, the management module of the optometry device determines the vision examination reminding time according to the received monitoring suggestion data, and pushes a reminding message to the client through the transceiver module.

The client transmits the interaction information of the user aiming at the monitoring suggestion data to the monitoring center and records the interaction information.

In a third aspect, an embodiment of the present invention provides a household optometry device, further comprising an optometry module, a management module, and a sending module, where the optometry module is configured to generate user vision monitoring data periodically, the management module stores the vision monitoring data periodically checked by a user, and the transceiver module is connected to a monitoring center through a network and sends the stored user vision monitoring data to the monitoring center, where the monitoring center is configured to establish an information table between the user and a doctor, receive the user vision monitoring data periodically sent by the optometry device, and generate a monitoring report according to the current vision monitoring data and previous vision monitoring data; and the monitoring report is sent to the hospital server according to the information table.

The hospital server comprises a control module, and the detection doctor feeds back vision monitoring suggestion data to the control module after acquiring a monitoring report from the hospital server.

In order to establish timely vision monitoring feedback, the hospital server comprises a communication module for establishing an information table corresponding to a user, an optometry device, a doctor and a client, and the communication module of the hospital server sends vision monitoring suggestion data to a monitoring center and then the vision monitoring suggestion data is pushed to the client and the optometry device by the monitoring center.

Preferably, the management module of the optometry device determines the vision examination reminding time according to the received monitoring suggestion data, and pushes a reminding message to the client through the sending module.

The client transmits the interaction information of the user aiming at the monitoring suggestion data to the monitoring center and records the interaction information.

Compared with the prior art, the invention has the beneficial effects that: according to the vision monitoring method and system provided by the embodiment of the invention, the household optometry device communicated with the system is arranged, so that the user can perform optometry without leaving home, and optometry data are analyzed by the monitoring center and then sent to the appointed hospital server, so that professional vision tracking correction is realized, medical resources in a specific area can participate in monitoring of vision correction, and the vision correction quality of a patient is improved.

[ description of the drawings ]

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

Fig. 1 is a schematic system architecture diagram of a vision monitoring system according to an embodiment of the present invention;

FIG. 2 is a main flow chart of a vision monitoring method provided by an embodiment of the invention;

FIG. 3 is a detailed flow chart of a vision monitoring method according to an embodiment of the present invention;

FIG. 4 is a block diagram of a hospital server setup for a vision monitoring system provided by an embodiment of the present invention; and

fig. 5 is a block diagram of a home optometric apparatus according to an embodiment of the present invention.

[ detailed description ] embodiments

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.

In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Referring to fig. 1, a system diagram of the vision monitoring system of the present embodiment is shown.

The vision monitoring system comprises a main server, a monitoring center 10, optometry devices 20 distributed at each family, mobile terminals 30 bound with the optometry devices 20 and hospital servers taking hospitals as units. In the present embodiment, the hospital server includes, for example, 2 hospital servers 40 and 45. As will be understood by those skilled in the art, as long as the hospital joins the vision monitoring system, the server is connected with the detection center, so that the receiving and opinion feedback of the monitoring report by the appointed specialist can be realized.

The monitoring center 10 communicates with a plurality of optometry devices arranged in a plurality of households in a wired or wireless manner. The monitoring center 10 serves as a central processing device for establishing each optometry device 20 and the mobile terminal bound with the user to be used and a doctor information table agreed by the user. The monitoring center 10 receives user vision monitoring data periodically transmitted by each optometry apparatus. In this embodiment, a single user is taken as an example, the hospital that the user has agreed is the a hospital, and the representative server is 40. The monitoring center 10 stores the vision monitoring data received each time, and generates a monitoring report by referring to the report standard according to the current vision monitoring data and the previous vision monitoring data. For example, if 50 degrees of visual fluctuation is found, a report is output suggesting adjustment of the worn lenses. The monitoring center 10 transmits the monitoring report to the hospital server 40 according to the information table established for each user.

Referring to fig. 5, which is a block diagram of a household optometry apparatus, the vision monitoring system according to the embodiment of the present invention is provided with a household optometry apparatus 20 in communication with a system monitoring center 10, so that a user can perform optometry without going out of home, and optometry data is analyzed by the monitoring center 10 and then sent to an appointed hospital server 40, thereby implementing professional vision tracking correction and improving the vision correction quality of a patient.

The optometry apparatus 20 is connected to the monitoring center 10 via a network, and includes an optometry module 22, a transceiver module 24, a management module 26, and a reminder module 28. The user of the home optometric instrument 20 checks his/her eyesight at a reasonable time determined by the system, the management module 26 of the optometric instrument 20 stores the eyesight monitoring data periodically checked by the user, and the transceiver module 24 transmits the stored eyesight monitoring data of the user to the monitoring center 10.

To achieve professional vision correction, the monitoring center 10 interprets the monitoring data that needs to be sent to the appointed specialist and forwards the monitoring data to the hospital server 40.

Referring to fig. 4, the hospital server 40 includes a control module 42 and a communication module 43. The doctor for examination obtains the monitoring report from the hospital server and feeds back the vision monitoring advice data to the control module 42 of the hospital server as required. The communication module 43 of the hospital server also stores data related to the user, including information tables of the user, the optometry apparatus corresponding to the user, the doctor for examination, and the client.

The doctor feeds back the suggested data, and the monitoring center 10 will distribute the data to the optometry device of the user and the bound mobile terminal in time to establish the timely monitoring feedback. The communication module 43 of the hospital server sends the vision monitoring suggestion data to the monitoring center 10, and then the vision monitoring suggestion data is pushed to the client 30 and the optometry device 20 corresponding to the user by the monitoring center 10.

Through the vision monitoring system of the embodiment, the special treatment resources in a specific area, such as the whole city range or the whole province range, can participate in the monitoring of vision correction, and the vision correction quality of different eye disease patients is improved.

After the optometry apparatus 20 receives the vision monitoring suggestion data, the management module 26 determines the vision examination reminding time according to the received vision monitoring suggestion data, and pushes a reminding message to the client 30 through the transceiver module 24. Thus, the parents of the teenagers can obtain the vision examination time of the children for the first time.

After receiving the vision monitoring suggestion data, the client 30 displays the vision monitoring suggestion data on a real interface of the client, and the user can complete setting of push suggestion data through the client 30, such as turning on or turning off operations. The client 30 transmits the interaction information for the monitoring recommendation data to the monitoring center 10 and records the interaction information.

Referring to fig. 2, an embodiment of the present application further provides a vision monitoring method, which mainly includes:

step 202: establishing an information table of a user and a doctor for detection, wherein the information table comprises relevant data of the user, including information tables of the user, an optometry device corresponding to the user, the doctor for detection and a client;

step 204: receiving user vision monitoring data periodically sent by the optometry device 20;

step 206: the monitoring center 10 generates a monitoring report according to the current vision monitoring data and the previous vision monitoring data;

step 208: the monitoring report is transmitted to the hospital server 40 according to the information table.

Referring to fig. 3, a specific flowchart of the vision monitoring method provided in this embodiment is shown.

Step 301: the monitoring center 10 establishes an information table corresponding to the user, the optometry device, the detecting doctor and the client, wherein the information table comprises relevant data of the user, including information tables of the user, the optometry device corresponding to the user, the detecting doctor and the client;

step 304: the monitoring center 10 receives vision monitoring data sent by each user through the optometry device 20 and stores the vision monitoring data in a database; wherein, the optometry unit 20 actively sends the vision monitoring data periodically checked by the user to the monitoring center 10 after acquiring the vision monitoring data each time;

step 306: for each user, the monitoring center 10 generates a monitoring report according to the current vision monitoring data and the previous vision monitoring data;

step 308: the monitoring center 10 transmits the monitoring report to the hospital server 40 according to the information table.

Step 310: the hospital server 40 sends the monitoring report to the appointed doctor according to the server setting, and the appointed doctor obtains the monitoring report and feeds back vision monitoring suggestion data from the hospital server;

step 312: the hospital server 40 sends the recommendation data to the monitoring center 10;

step 314: the monitoring center 10 also needs to push the vision monitoring suggestion data to the client 30 and the optometry device 20;

step 316: the user browses the vision monitoring suggestion data and completes interaction at the client 30, the client 30 displays the vision monitoring suggestion data on a real interface of the client after receiving the vision monitoring suggestion data, the user can complete setting of pushing suggestion data through the client 30, such as opening or closing operation, and the client 30 transmits interaction information aiming at the monitoring suggestion data to the monitoring center 10 and records the interaction information;

step 318: the optometry device determines the reminding time of the next vision test according to the vision monitoring suggestion data, the management module 26 determines the reminding time of the vision test according to the received monitoring suggestion data, and pushes a reminding message to the client 30 through the transceiver module 24. Thus, the parents of the teenagers can obtain the vision examination time of the children for the first time.

It should be noted that, because the contents of information interaction, execution process, and the like between the modules and units in the device are based on the same concept as the processing method embodiment of the present invention, specific contents may refer to the description in the method embodiment of the present invention, and are not described herein again.

Those of ordinary skill in the art will appreciate that all or part of the steps of the various methods of the embodiments may be implemented by associated hardware as instructed by a program, which may be stored on a computer-readable storage medium, which may include: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (12)

1. A vision monitoring method is characterized by being applied to a monitoring center, wherein the monitoring center is connected with at least one hospital server and comprises the following steps:

establishing an information table corresponding to a user, an optometry device, a detection doctor and a client;

receiving user vision monitoring data periodically sent by an optometry device, and storing the user vision monitoring data in a database;

generating a monitoring report according to the vision monitoring data and the previous vision monitoring data;

according to an information table, the monitoring report is sent to a hospital server, the hospital server sends the monitoring report to an appointed doctor according to server setting, the monitoring doctor feeds back vision monitoring suggestion data to the hospital server after acquiring the monitoring report, so that the hospital server sends the vision monitoring suggestion data to a monitoring center, the vision monitoring suggestion data are pushed to a client side and a optometry device by the monitoring center, the optometry device determines vision examination reminding time according to the monitoring suggestion data and pushes reminding messages to the client side, and the client side sends interaction information of a user aiming at the monitoring suggestion data to the monitoring center and records the interaction information.

2. The vision monitoring method of claim 1, wherein the optometry unit is connected to the network by wire or wireless and stores the vision monitoring data periodically checked by the user, and then transmits the stored vision monitoring data of the user to the monitoring center.

3. A vision monitoring system, comprising: the monitoring center is used for establishing an information table corresponding to a user, the optometry device, a doctor and a client, receiving user vision monitoring data periodically sent by the optometry device, storing the user vision monitoring data into a database, and generating a monitoring report according to the current vision monitoring data and the previous vision monitoring data; and the monitoring server is used for sending the monitoring report to a hospital server according to an information table, the hospital server sends the monitoring report to an appointed doctor according to the server setting, the monitoring doctor feeds back vision monitoring suggestion data to the hospital server after acquiring the monitoring report from the hospital server, so that the hospital server sends the vision monitoring suggestion data to a monitoring center, the vision monitoring suggestion data is pushed to a client side and an optometry device by the monitoring center, and the client side transmits the interaction information of the user aiming at the monitoring suggestion data to the monitoring center and records the interaction information.

4. The vision monitoring system of claim 3, wherein the optometry unit is connected to the network via a wire or a wireless connection and comprises a management module and a transceiver module, the management module stores vision monitoring data periodically checked by the user, and the transceiver module transmits the stored vision monitoring data of the user to the monitoring center.

5. The vision monitoring system of claim 4, wherein the hospital server includes a control module to which vision monitoring advice data is fed back after the test doctor obtains a monitoring report from the hospital server.

6. The vision monitoring system of claim 5, wherein the hospital server comprises a communication module, and the communication module of the hospital server sends the vision monitoring advice data to the monitoring center and then the vision monitoring advice data is pushed to the client and the optometry device by the monitoring center.

7. The vision monitoring system of claim 6, wherein the management module of the optometry device determines a vision examination reminder time according to the received monitoring advice data and pushes a reminder message to the client via the transceiver module.

8. A household optometry device is characterized by comprising an optometry module, a management module and a transceiver module, wherein the optometry module is used for generating user vision monitoring data periodically, the management module stores the vision monitoring data periodically checked by a user, the transceiver module is connected to a monitoring center through a network and sends the stored user vision monitoring data to the monitoring center, and the monitoring center is used for establishing an information table of the user and a doctor to be detected, receiving the user vision monitoring data periodically sent by the optometry device and generating a monitoring report according to the current vision monitoring data and the previous vision monitoring data; and the monitoring report is sent to a hospital server according to an information table.

9. The home optometric instrument of claim 8, wherein the hospital server comprises a control module, and the vision monitoring advice data is fed back to the control module after the doctor of the test obtains the monitoring report from the hospital server.

10. The home optometry device of claim 8, wherein the hospital server comprises a communication module, and the communication module of the hospital server sends the vision monitoring advice data to the monitoring center and then the vision monitoring advice data is pushed to the client and the optometry device by the monitoring center.

11. The home optometric instrument of claim 8, wherein the management module of the optometric instrument determines a vision examination reminder time according to the received monitoring advice data and pushes a reminder message to the client via the transceiver module.

12. The home optometry apparatus of claim 11, wherein the client transmits interaction information of a user for monitoring recommendation data to a monitoring center and records the interaction information.

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