CN114697356A - Data transmission method and device based on medical equipment, storage medium and medical equipment - Google Patents

Abstract

A data transmission method and device based on medical equipment, a storage medium and the medical equipment are disclosed, wherein the method comprises the following steps: controlling the medical device to establish a communication link with a backend server, wherein the backend server is associated with a device manufacturer of the medical device; and carrying out data transmission by using the communication link. By the scheme of the invention, the end-to-end on-line direct communication between the user side and the equipment manufacturer side can be realized based on the medical equipment, so that the information intercommunication between the end user and the equipment manufacturer in the field of medical equipment manufacture is more convenient and quicker.

Description

Data transmission method and device based on medical equipment, storage medium and medical equipment

Technical Field

The invention relates to the technical field of Internet of things, in particular to a data transmission method and device based on medical equipment, a storage medium and the medical equipment.

Background

The current medical devices are single in function, i.e. limited to providing medical services. However, with the development of the internet of things technology, medical equipment with a single function cannot meet the diversified service requirements of users. In particular, on the basis of the original medical service, more and more users want the medical device to integrate more functions, such as communication function and self-refresh function, to improve the user experience.

For device manufacturers, there is only offline and face-to-face contact between the device manufacturer and the end user using the medical device at this stage. Taking the Instruction for use (IFU for short) of medical equipment as an example, the existing Instruction is usually paper and is provided to Users when the medical equipment is sold, and if the equipment manufacturer wants to update the Instruction during the use of the medical equipment, the new Instruction can only be mailed to all end Users.

Disclosure of Invention

The technical problem solved by the invention is how to realize end-to-end on-line direct communication between a user side and an equipment manufacturer side based on medical equipment.

In order to solve the technical problem, an embodiment of the present invention provides a data transmission method based on a medical device, including: controlling the medical device to establish a communication link with a backend server, wherein the backend server is associated with a device manufacturer of the medical device; and carrying out data transmission by using the communication link.

Optionally, the using the communication link to transmit data includes: receiving update indication information transmitted over the communication link; and updating the use instruction stored locally in the medical equipment according to the updating instruction information.

Optionally, the update instruction information includes an identifier of the target medical device and an updated instruction manual, and the updating the instruction manual stored locally in the medical device according to the update instruction information includes: when the identification of the target medical device is consistent with the identification of the medical device connected with the communication link, replacing the original instruction manual stored locally in the medical device with the updated instruction manual.

Optionally, the update instruction information includes an identifier set of a target medical device and an updated usage instruction, and the updating the usage instruction stored locally in the medical device according to the update instruction information includes: replacing the original instructions stored locally by the medical device with the updated instructions when the set of identifiers for the target medical device includes the identifier of the medical device to which the communication link is connected.

Optionally, the association relationship between the medical device and the identifier is stored in the background server in advance.

Optionally, the identification of the medical device is generated based on at least one of: device information of the medical device; registration information of a user using the medical device.

Optionally, the registration information of the user is generated by scanning a graphic code provided to the medical device.

Optionally, the using the communication link for data transmission includes: transmitting feedback information over the communication link, wherein the feedback information includes historical operational records and/or user input information for the medical device.

Optionally, the feedback information is sent periodically and/or in response to user operation on the medical device.

Optionally, the controlling the medical device to establish the communication link with the background server includes: sending communication link establishment request information to the background server, wherein the communication link establishment request information comprises equipment information of the medical equipment and identity information of a user using the medical equipment; and receiving the communication link establishment confirmation information fed back by the background server.

Optionally, the communication link is further connected to a terminal device communicating with the medical device, and the using the communication link for data transmission further includes: and receiving a group message through the communication link, wherein a sending end of the group message is a terminal device communicated with other medical devices, and users related to the other medical devices and users related to the medical devices belong to the same group.

Optionally, a plurality of users belonging to the same group satisfy at least one of the following conditions: the models of the medical equipment related to each user belong to the same model set; the identity information of each user belongs to the same identity set; the distance between the geographic positions of the medical devices associated with the users is smaller than a preset threshold value.

In order to solve the above technical problem, an embodiment of the present invention further provides a data transmission device based on a medical device, including: a control module to control the medical device to establish a communication link with a backend server, wherein the backend server is associated with a device manufacturer of the medical device; and the data transmission module is used for transmitting data by using the communication link.

To solve the above technical problem, an embodiment of the present invention further provides a storage medium, on which a computer program is stored, where the computer program is executed by a processor to perform the steps of the above method.

In order to solve the technical problem, an embodiment of the present invention further provides a medical apparatus, which includes a memory and a processor, where the memory stores a computer program capable of running on the processor, and the processor executes the steps of the method when running the computer program.

Compared with the prior art, the technical scheme of the embodiment of the invention has the following beneficial effects:

the embodiment of the invention provides a data transmission method based on medical equipment, which comprises the following steps: controlling the medical device to establish a communication link with a backend server, wherein the backend server is associated with a device manufacturer of the medical device; and carrying out data transmission by using the communication link.

Compared with the existing communication mode which can only realize offline communication, the embodiment can realize end-to-end online direct communication between the user side and the equipment manufacturer side based on the medical equipment, so that the information intercommunication between the end user and the equipment manufacturer in the field of medical equipment manufacture is more convenient and timely. In particular, by establishing a communication link between the medical device and the backend server, the user is enabled to interact with information directly with the device manufacturer. Further, at least a portion of the data transmitted over the communication link is associated with a device manufacturer. For example, the data transmitted may be one or more of: the system comprises a use instruction of the medical equipment, update instruction information for updating the use instruction, feedback information actively reported by a user aiming at the medical equipment, and related information collected by an equipment manufacturer aiming at the medical equipment. Further, the transmitting data using the communication link includes: receiving update indication information transmitted over the communication link; and updating the use instruction stored locally in the medical equipment according to the updating instruction information. Therefore, the device manufacturer can remotely update the use instruction through the communication link without mailing the paper edition use instruction again, so that the energy conservation and environmental protection are facilitated, and the updating efficiency is higher. Furthermore, the medical equipment has more abundant functions and meets the diversified use requirements of users.

Further, the using the communication link for data transmission includes: transmitting feedback information over the communication link, wherein the feedback information includes historical operational records and/or user input information for the medical device. Therefore, the user can send feedback information to the equipment manufacturer through the communication link, so that the equipment manufacturer can still obtain the use experience and suggestion of the user after the medical equipment is sold, and the product can be reasonably improved by combining with the user feedback in the subsequent design and manufacturing stage.

Drawings

FIG. 1 is a flow chart of a method for data transmission based on a medical device according to an embodiment of the invention;

FIG. 2 is a flowchart of one embodiment of step S102 of FIG. 1;

fig. 3 is a schematic structural diagram of a data transmission device based on a medical apparatus according to an embodiment of the present invention.

Detailed Description

As will be appreciated by those skilled in the art, as background art suggests, the existing medical devices have a single function, and the end user and the device manufacturer are still in charge of offline communication, which is inefficient. For example, after a medical device is sold to a user, the device manufacturer will not get any feedback, which is very disadvantageous for the device manufacturer to improve its product.

On the other hand, users currently using the same medical equipment in different hospitals do not have the opportunity to know each other, which greatly limits communication between people in the same working location.

In order to solve the technical problem, an embodiment of the present invention provides a data transmission method based on a medical device, including: controlling the medical device to establish a communication link with a backend server, wherein the backend server is associated with a device manufacturer of the medical device; and carrying out data transmission by using the communication link.

According to the embodiment, the end-to-end on-line direct communication between the user side and the equipment manufacturer side can be realized based on the medical equipment, so that the information intercommunication between the end user and the equipment manufacturer in the field of medical equipment manufacture is more convenient and timely. In particular, by establishing a communication link between the medical device and the backend server, the user is enabled to interact with information directly with the device manufacturer.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Fig. 1 is a flow chart of a data transmission method based on a medical device according to an embodiment of the invention.

This embodiment may be performed by a medical device that may communicate with the backend server via an established communication link, which may be established in a wired or wireless manner.

The medical devices may include monitors, anesthetics, ventilators and pulmonary monitoring devices, neonatal incubator, neonatal jaundice screeners and phototherapy lamps, surgical shadowless lamps, medical pylons, medical gas supply systems, and the like.

The background server may be an entity server provided in a hospital where the medical device is located or in a device manufacturer of the medical device, or may be a cloud server. As a non-limiting example, the backend server is directly provided at the device manufacturer, the medical device is connected with the backend server through a communication link, and the medical device can also be connected with an entity server provided in the hospital through other communication links. The background server is associated with the equipment manufacturer, and the equipment manufacturer transmits data to the medical equipment or receives the data transmitted by the medical equipment through the background server by using the communication link.

The user using the medical device may be a hospital attendant such as a doctor, nurse care or the like.

Specifically, referring to fig. 1, the data transmission method based on a medical device according to the present embodiment may include the following steps:

step S101, controlling the medical equipment to establish a communication link with a background server, wherein the background server is associated with an equipment manufacturer of the medical equipment;

and step S102, carrying out data transmission by using the communication link.

Further, the medical device may include a communication module through which a communication link is established with the backend server.

In one implementation, the step S101 may be performed when the user uses the medical device for the first time, and the communication link is always kept connected after the first establishment. Alternatively, the step S101 may be performed each time the medical device is powered on.

Specifically, the step S101 may include the steps of: sending communication link establishment request information to the background server, wherein the communication link establishment request information comprises equipment information of the medical equipment and identity information of a user using the medical equipment; and receiving the communication link establishment confirmation information fed back by the background server.

For example, the communication link establishment request message may be issued by the medical device at its own initiative, or triggered by the user's operation on the medical device. In this example, the communication link may be understood as a dedicated data transmission path between the medical device and the background server, the medical device can still communicate with the background server before the communication link is established, and data interaction between the medical device and the background server is performed only through the communication link after the communication link is established. Further, the communication link may be subject to encryption to improve data security. Further, the communication link establishment request information is sent to the background server by the medical equipment in a wireless or wired mode, and after the background server confirms that the communication link can be established and feeds back the communication link establishment confirmation information, a special communication link is established between the medical equipment and the background server. And respective communication links are respectively established between different medical equipment and the background server.

For another example, the communication link establishment request message may be sent by a terminal device of the user, where the terminal device may be a smart phone, an IPAD, a tablet computer, or the like. In this example, the medical device is capable of data interaction with the backend server after the communication link is established.

Further, the registration information of the user may be generated by scanning a graphic code provided to the medical device. The graphical code may contain device information for the medical device. For example, a user uses his terminal device to scan a two-dimensional code attached to a medical device to quickly access a service platform (e.g., a wechat service platform) of a device manufacturer, where the user fills in information and completes registration to bind with the medical device. And then, sending a communication link establishment request message containing the bound device information and registration information to a background server through the terminal device, and recording the device information and the registration information by the background server and establishing a communication link with the medical device according to the device information. And finally, sending communication link establishment confirmation information to the terminal equipment to prompt that the communication link is established.

Identity information of the user, such as information of a working hospital, a position, a working age, an age, a sex and the like which do not expose privacy of the user, can be obtained based on the registration information of the user.

The graphic code may also be used to guide the terminal device to jump to a special Application program (APP), and the user may complete a registration operation on the APP and bind with the medical device.

For example, the device information may include a serial number (serial number), a part number (part number).

Further, the backend server may generate an identification of the medical device based on the device information and the registration information as an identification reference of the medical device. Accordingly, the identification of the medical device may correspond one-to-one with the communication link.

Further, the communication link may also connect the terminal device. Through this connection, the user can remotely control all or part of the functions of the medical device through his terminal device. Through the connection, the user can also remotely communicate with the background server through the terminal equipment.

In one implementation, referring to fig. 2, the step S102 may include the following steps:

step S1021, receiving the updating indication information transmitted through the communication link;

step S1022, the instruction manual stored locally in the medical device is updated according to the update instruction information.

Specifically, the update instruction information may include updated usage specifications. Alternatively, the update instruction information may include only a content portion of the usage specification that needs to be updated.

Further, the update indication information may be sent by a background server.

The instructions for use may be used to guide the user in operating the medical device, which may also be referred to as user manuals, product instructions, instructions for use, instructions for operation, and the like. The instructions may also include notes, warnings, etc. when operating the medical device.

In this implementation, the instructions are digitized, and the digitized instructions may be pre-stored locally on the medical device, or may be stored in the backend server.

The instructions for use may be presented on a display screen of the medical device. The instructions may also be presented on a terminal device in communication with the medical device.

Therefore, after the medical equipment is sold, the equipment manufacturer can still remotely update the use instruction, and does not need to mail the paper edition use instruction again, so that the energy conservation and environmental protection are facilitated, and the updating efficiency is higher. Furthermore, the medical equipment has more abundant functions and meets the diversified use requirements of users.

In one implementation, the update instruction information may include an identifier of a target medical device and an updated instruction manual, where the target medical device refers to a medical device that needs to update the instruction manual.

Accordingly, the step S1022 may include the steps of: when the identification of the target medical device is consistent with the identification of the medical device connected with the communication link, replacing the original instruction manual stored locally in the medical device with the updated instruction manual.

That is, in this embodiment, after receiving the update instruction information transmitted through the communication link, the medical device may first determine whether the identifier of the target medical device in the update instruction information is consistent with the identifier of the medical device itself; if the two are consistent, executing updating operation; otherwise, no update operation is performed.

Further, the identification of the medical device may be generated based on at least one of: device information of the medical device; registration information of a user using the medical device.

Further, the association relationship between the medical device and the identifier is stored in the background server in advance. Further, the background server may be provided with a preset database to store the identifications of the plurality of medical devices and associated instructions for use. When the instruction book of a certain medical device needs to be updated, the identification of the medical device is determined, and the updated instruction information is generated by combining the updated instruction book.

In one implementation, the update indication information may include a set of identifications of the target medical device and updated instructions for use. That is, the backend server may generate the identification set of the target medical devices based on the identifications of the plurality of medical devices that need to update the same usage specification, and group-send the update instruction information containing the foregoing content to each target medical device through the corresponding communication link.

Accordingly, the step S1022 may include the steps of: replacing the original instructions stored locally by the medical device with the updated instructions when the set of identifiers for the target medical device includes the identifier of the medical device to which the communication link is connected.

That is, in this embodiment, after receiving the update instruction information sent in a mass manner, the medical device searches whether its own identifier is in the identifier set of the target medical device; if the data is found, updating operation is executed; otherwise, no update operation is performed.

In a variation, the usage specifications of the plurality of target medical devices that correspond to the identifier set of the target medical device and need to be updated may be different, and correspondingly, the update instruction information may include the identifier set of the target medical device and the updated usage specifications corresponding to each target medical device.

Accordingly, the step S1022 may include the steps of: when the identification set of the target medical device comprises the identification of the medical device connected with the communication link, replacing the original use instruction book stored locally in the medical device with the updated use instruction book corresponding to the identification of the medical device in the updating indication information.

In a specific implementation, the step S102 may further include the steps of: sending feedback information over the communication link.

For example, the feedback information may include user input information. The user input information may include user experience with the medical device, operational recommendations, question feedback, and the like. The user input information may be a filling result of a questionnaire issued by the background server through the communication link.

Therefore, the user can send the feedback information to the equipment manufacturer through the communication link, so that the equipment manufacturer can still obtain the use experience and suggestion of the user after the medical equipment is sold, and the product can be reasonably improved by combining the user feedback in the subsequent design and manufacturing stage.

As another example, the feedback information may include historical operating records of the medical device. The history operation record may include browsing history, search history, and the like of the usage specification, and the browsing history may include browsing order, browsing time length, browsing frequency, and the like of each content part when browsing the usage specification. Further, the history operation record may further include operation history of the user on the medical device, such as operation sequence, operation frequency, operation duration, etc. of each function of the medical device, and these operations may be operations indicated by corresponding content parts of the usage instruction.

Further, the preset database may further store historical operation records of each medical device, and the historical operation records are associated with the identifiers of the medical devices.

Further, the feedback information may be automatically uploaded by the medical device on a regular basis.

Further, the feedback information may be transmitted in response to a user operating on the medical device.

In a specific implementation, the step S102 may further include the steps of: and receiving a group message through the communication link, wherein a sending end of the group message is a terminal device communicated with other medical devices, and users related to the other medical devices and users related to the medical devices belong to the same group.

Specifically, by collecting device information of a plurality of medical devices and registration information of associated users, the backend server can establish a group to establish an online communication platform for the users.

Further, a plurality of users belonging to the same group may satisfy at least one of the following conditions: the models of the medical equipment related to each user belong to the same model set; the identity information of each user belongs to the same identity set; the distance between the geographic positions of the medical devices associated with the users is smaller than a preset threshold value.

Therefore, users using the same or similar medical equipment in different hospitals in a specific regional range can be pulled to the same group, so that the users in the same position can almost communicate with each other.

Assuming that the backend server determines based on the collected device information of the plurality of medical devices and the registration information of the associated users that user a1 (using medical device a2), user B1 (using medical device B2), user C1 (using medical device C2), and user D1 (using medical device D2) are anesthesiologists who are available in different hospitals in the same city, a group can be established for the four users, and the four users can access the group through respective terminal devices and send messages to each other in the group.

Taking the example that the user a1 sends the group message in the group, the group message is sent to the backend server by the terminal device of the user a1 through the communication link between the medical device a2 and the backend server, and the backend server forwards the group message to the terminal devices of the user B1, the user C1, and the user D1 through the communication links established with the medical device B2, the medical device C2, and the medical device D2, respectively.

Further, the group may be established in the application.

By adopting the embodiment, the end-to-end on-line direct communication between the user side and the equipment manufacturer side can be realized based on the medical equipment, so that the information intercommunication between the end user and the equipment manufacturer in the field of medical equipment manufacture is more convenient and timely. In particular, by establishing a communication link between the medical device and the backend server, the user is enabled to interact with information directly with the device manufacturer.

Fig. 3 is a schematic structural diagram of a data transmission device based on a medical apparatus according to an embodiment of the present invention. Those skilled in the art will understand that the data transmission device 3 based on medical equipment according to the present embodiment can be used to implement the method solutions described in the above embodiments of fig. 1 and 2.

Specifically, referring to fig. 3, the data transmission apparatus 3 based on medical device according to the present embodiment may include: a control module 31, configured to control the medical device to establish a communication link with a backend server, where the backend server is associated with a device manufacturer of the medical device; and a data transmission module 32, configured to perform data transmission using the communication link.

For more details on the working principle and working mode of the data transmission device 3 based on medical equipment, reference may be made to the description related to the method in fig. 1 and fig. 2, and further description is omitted here.

Further, the embodiment of the present invention also discloses a storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the method technical solution described in the above embodiments shown in fig. 1 and fig. 2 is executed. Preferably, the storage medium may include a computer-readable storage medium such as a non-volatile (non-volatile) memory or a non-transitory (non-transient) memory. The storage medium may include ROM, RAM, magnetic or optical disks, etc.

Further, the embodiment of the present invention also discloses a medical device, which includes a memory and a processor, where the memory stores a computer program capable of running on the processor, and the processor executes the technical solution of the method described in the above embodiment shown in fig. 1 and fig. 2 when running the computer program.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected by one skilled in the art without departing from the spirit and scope of the invention, as defined in the appended claims.

Claims (15)

1. A data transmission method based on medical equipment is characterized by comprising the following steps:

controlling the medical device to establish a communication link with a backend server, wherein the backend server is associated with a device manufacturer of the medical device;

and carrying out data transmission by using the communication link.

2. The data transmission method of claim 1, wherein the transmitting data using the communication link comprises:

receiving update indication information transmitted over the communication link;

and updating the use instruction stored locally in the medical equipment according to the updating instruction information.

3. The data transmission method according to claim 2, wherein the update instruction information includes an identifier of a target medical device and an updated usage specification, and the updating the usage specification stored locally in the medical device according to the update instruction information includes:

when the identification of the target medical device is consistent with the identification of the medical device connected with the communication link, replacing the original instruction manual stored locally in the medical device with the updated instruction manual.

4. The data transmission method according to claim 2, wherein the update instruction information includes an identification set of a target medical device and an updated usage specification, and the updating the usage specification stored locally in the medical device according to the update instruction information includes:

replacing the original instructions stored locally by the medical device with the updated instructions when the set of identifiers for the target medical device includes the identifier of the medical device to which the communication link is connected.

5. The data transmission method according to claim 3 or 4, wherein the association relationship between the medical device and the identifier is stored in the background server in advance.

6. The data transmission method according to claim 3 or 4, wherein the identification of the medical device is generated based on at least one of: device information of the medical device; registration information of a user using the medical device.

7. The data transmission method of claim 6, wherein the registration information of the user is generated by scanning a graphic code provided to the medical device.

8. The data transmission method of claim 1, wherein the using the communication link for data transmission comprises:

sending feedback information over the communication link, wherein the feedback information includes historical operational records and/or user input information for the medical device.

9. The data transmission method of claim 8, wherein the feedback information is sent periodically and/or in response to a user operating on the medical device.

10. The data transmission method of claim 1, wherein the controlling the medical device to establish the communication link with a backend server comprises:

sending communication link establishment request information to the background server, wherein the communication link establishment request information comprises equipment information of the medical equipment and identity information of a user using the medical equipment;

and receiving the communication link establishment confirmation information fed back by the background server.

11. The data transmission method according to claim 1, wherein the communication link further connects a terminal device in communication with the medical device, and the data transmission using the communication link further comprises:

and receiving a group message through the communication link, wherein a sending end of the group message is a terminal device communicated with other medical devices, and users related to the other medical devices and users related to the medical devices belong to the same group.

12. The data transmission method according to claim 11, wherein the plurality of users belonging to the same group satisfy at least one of the following conditions:

the models of the medical equipment related to each user belong to the same model set;

the identity information of each user belongs to the same identity set;

the distance between the geographic positions of the medical devices associated with the users is smaller than a preset threshold value.

13. A medical device-based data transmission apparatus, comprising:

a control module to control the medical device to establish a communication link with a backend server, wherein the backend server is associated with a device manufacturer of the medical device;

and the data transmission module is used for transmitting data by using the communication link.

14. A storage medium having a computer program stored thereon, the computer program, when being executed by a processor, performing the steps of the method according to any one of claims 1 to 12.

15. A medical device comprising a memory and a processor, the memory having stored thereon a computer program operable on the processor, wherein the processor, when executing the computer program, performs the steps of the method of any of claims 1 to 12.

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