CN112002402A - Medical equipment monitoring method and system based on digital twin body and storage medium - Google Patents

Abstract

The invention discloses a medical equipment monitoring method, a system and a storage medium based on a digital twin body.A room digital twin body and a medical equipment digital twin body matched with a medical scene are created through a server, when the server receives a medical equipment information inquiry request, a medical equipment identification number is obtained from the room digital twin body and the medical equipment digital twin body, a corresponding medical equipment digital twin body is obtained by inquiring a medical equipment information set according to the medical equipment identification number, and position information and medical equipment related information of the medical equipment digital twin body in the room digital twin body are returned; or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client; the remote monitoring of the medical equipment is convenient.

Description

Medical equipment monitoring method and system based on digital twin body and storage medium

Technical Field

The invention belongs to the technical field of medical equipment management, and particularly relates to a medical equipment monitoring method and system based on a digital twin body and a storage medium.

Background

With the rapid development of the medical industry, various medical devices are developed, and one hospital usually has thousands of medical devices. When managing medical equipment, the number of medical equipment is large, and the location frequently changes, so that a general equipment management method cannot be applied. This makes it impossible to centrally manage the medical devices, to obtain the positions of the medical devices in a timely manner, and to effectively monitor the daily operations of the medical devices.

Disclosure of Invention

The invention aims to provide a medical equipment monitoring method, a medical equipment monitoring system and a storage medium based on a digital twin body, which realize accurate monitoring of medical equipment and facilitate management of the medical equipment.

In order to solve the problems, the technical scheme of the invention is as follows:

a digital twin-based medical device monitoring method, comprising:

s1: the server side creates a room digital twin body and a medical equipment digital twin body which are matched with a medical scene, and establishes a room information set corresponding to the room digital twin body and a medical equipment information set corresponding to the medical equipment digital twin body;

s2: the server side obtains room related information corresponding to the room digital twin and medical equipment related information corresponding to the medical equipment digital twin, and writes the room related information and the medical equipment related information into the room information set and the medical equipment information set respectively; the medical equipment related information comprises basic medical equipment information, a communication theme between the medical equipment related information and the medical equipment digital twin body, medical equipment operation information and position information;

s3: when the server receives a medical equipment information query request sent by the client, acquiring a medical equipment identification number from the medical equipment information query request, querying the medical equipment information set according to the medical equipment identification number to acquire a corresponding medical equipment digital twin body, and returning position information of the medical equipment digital twin body in a room digital twin body and medical equipment related information to the client;

or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client.

According to an embodiment of the present invention, the step S1 further includes:

the server side establishes a room digital twin body corresponding to the room object model according to the room object model; a data interaction mode and interaction content with the room digital twin are defined in the room object model;

according to a medical equipment object model, establishing a medical equipment digital twin body corresponding to the medical equipment object model; and a data interaction mode and interaction content with the medical equipment data twin are defined in the medical equipment object model.

According to an embodiment of the present invention, the step S2 further includes:

s21: the server receives room related information sent by the dynamic environment identification equipment bound with the room in the medical scene and medical equipment related information sent by the dynamic energy identification equipment bound with the medical equipment in the medical scene through the Internet of things;

s22: writing the room-related information into the room object model, transmitting the room-related information to the room digital twin through the room object model, and storing the room-related information in a room information set;

s23: and writing the related information of the medical equipment into the medical equipment object model, transmitting the related information of the medical equipment to the digital twin of the medical equipment through the medical equipment object model, and storing the related information of the medical equipment in a medical equipment information set.

A digital twin-based medical device monitoring system, comprising:

the digital twin body creation module is used for creating a room digital twin body and a medical equipment digital twin body matched with a medical scene at a server side, and creating a room information set corresponding to the room digital twin body and a medical equipment information set corresponding to the medical equipment digital twin body;

the information acquisition module is used for the server side to acquire room related information corresponding to the room digital twin and medical equipment related information corresponding to the medical equipment digital twin, and respectively write the room related information and the medical equipment related information into the room information set and the medical equipment information set;

the monitoring module is used for acquiring a medical equipment identification number from a medical equipment information inquiry request sent by a client when the server receives the medical equipment information inquiry request, inquiring the medical equipment information set according to the medical equipment identification number to acquire a corresponding medical equipment digital twin, and returning position information of the medical equipment digital twin in a room digital twin and medical equipment related information to the client; or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client.

A digital twin-based medical device monitoring system, comprising:

the server is used for creating a room digital twin and a medical equipment digital twin matched with a medical scene and establishing a room information set corresponding to the room digital twin and a medical equipment information set corresponding to the medical equipment digital twin;

the dynamic environment identification device is bound with the room in the medical scene and used for transmitting the room related information to the server;

the dynamic energy identification device is bound with the medical device in the medical scene and used for transmitting the related information of the medical device to the server;

the dynamic environment identification equipment broadcasts a room identification number outwards in real time, and the dynamic energy identification equipment receives the identification number broadcasted by the dynamic environment identification equipment in the room where the medical equipment is located;

the server receives the room related information and the medical equipment related information and writes the room related information and the medical equipment related information into the room information set and the medical equipment information set respectively;

when the server receives a medical equipment information query request sent by a client, acquiring a medical equipment identification number from the medical equipment information query request, querying the medical equipment information set according to the medical equipment identification number to acquire a corresponding medical equipment digital twin body, and returning position information of the medical equipment digital twin body in a room digital twin body and medical equipment related information to the client;

or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client.

A digital twin-based medical device monitoring system comprising a memory having instructions stored therein and at least one processor, the memory and the at least one processor being interconnected by a line;

the at least one processor invokes the instructions in the memory to cause the digital twin-based medical device monitoring system to perform a digital twin-based medical device monitoring method in an embodiment of the invention.

A computer-readable storage medium having stored thereon a computer program which, when executed by a processor, implements a digital twin-based medical device monitoring method in an embodiment of the invention.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the following advantages and positive effects:

1) aiming at the problems that the existing medical equipment is too many, and the existing medical equipment is miscellaneous and the position frequently changes, and the monitoring cannot be effectively carried out, so that the medical work is influenced, a room digital twin body and a medical equipment digital twin body matched with a medical scene are created through a server, when the server receives a medical equipment information inquiry request, a medical equipment identification number is obtained from the room digital twin body and the medical equipment digital twin body, a corresponding medical equipment digital twin body is obtained according to the medical equipment identification number inquiry medical equipment information set, and the position information of the medical equipment digital twin body in the room digital twin body and the medical equipment related information are returned to a client; or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client. The method realizes accurate monitoring of the medical equipment and facilitates management of the medical equipment.

2) In the medical equipment monitoring method based on the digital twin, a room digital twin and a medical equipment digital twin are created based on a room object model and a medical equipment object model, so that the extension of multi-dimensional (basic information, communication subject, running information and the like) and multi-attributes (such as a plurality of parameters and the like under the basic information) can be supported, and the created digital twin is infinitely close to an entity.

Drawings

Fig. 1 is a flow diagram of a digital twin-based medical device monitoring method according to an embodiment of the present invention;

FIG. 2 is a block diagram of a digital twin-based medical device monitoring system in an embodiment of the present invention;

FIG. 3 is a schematic diagram of a digital twin-based medical device monitoring system according to an embodiment of the present invention;

fig. 4 is a schematic diagram of a digital twin-based medical device monitoring system according to an embodiment of the present invention.

Detailed Description

The following describes a digital twin-based medical device monitoring method, system and storage medium in further detail with reference to the accompanying drawings and specific embodiments. Advantages and features of the present invention will become apparent from the following description and from the claims.

Example one

The present embodiment provides a method for monitoring medical equipment based on a digital twin, aiming at the problem that the existing medical equipment is too many and has frequent position changes, and cannot be effectively monitored, so as to affect the medical work, and please refer to fig. 1, the method for monitoring medical equipment includes:

s1: the server side creates a room digital twin body and a medical equipment digital twin body which are matched with a medical scene, and establishes a room information set corresponding to the room digital twin body and a medical equipment information set corresponding to the medical equipment digital twin body;

s2: the server side obtains room related information corresponding to the room digital twin and medical equipment related information corresponding to the medical equipment digital twin, and writes the room related information and the medical equipment related information into the room information set and the medical equipment information set respectively; the medical equipment related information comprises basic medical equipment information, a communication theme between the medical equipment related information and the medical equipment digital twin body, medical equipment operation information and position information;

s3: when the server receives a medical equipment information query request sent by the client, acquiring a medical equipment identification number from the medical equipment information query request, querying the medical equipment information set according to the medical equipment identification number to acquire a corresponding medical equipment digital twin body, and returning position information of the medical equipment digital twin body in a room digital twin body and medical equipment related information to the client;

or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client.

By the monitoring method of the medical equipment, the medical equipment can be accurately monitored, the relevant information of the medical equipment can be timely obtained, the relevant parameters of the medical equipment can be remotely set, the medical equipment does not need to be in the field, and the monitoring method is very convenient.

Specifically, when a room digital twin body and a medical equipment digital twin body matched with a medical scene are created by the server, a room digital twin body corresponding to a room object model is established according to the room object model; and establishing a medical equipment digital twin body corresponding to the medical equipment object model according to the medical equipment object model.

The room object model defines room related information such as a data interaction mode and interaction content with the room digital twin. As shown in table 1:

TABLE 1

As can be seen from table 1, the room object model is composed of lateral dimensions, and can describe a room from dimensions such as basic information, communication subject, environment information, and the like; meanwhile, each dimension also comprises a plurality of attributes for describing the implementation process of the dimension. The basic information comprises room names, subjects, monitoring node types, starting monitoring time, monitoring node states, networking protocols and data transmission formats, the communication subject comprises firmware upgrading, room labels, clock synchronization, room shadows, configuration updating, broadcasting, transparent transmission uplink and transparent transmission downlink, and the environment information comprises the temperature, the humidity, the air pressure, PM2.5 and the illumination in the room. Of course, other dimensions or attributes may be added as desired.

Because the above-mentioned room object model supports the horizontal and longitudinal extension of multi-dimensional multi-attribute, the room digital twin created according to the room object model is infinitely close to the entity in the medical scene.

The medical equipment object model defines the data interaction mode and interaction content of the medical equipment related information with the medical equipment digital twin. As shown in table 2:

TABLE 2

As can be seen from table 2, the medical device object model is composed of horizontal dimensions, and can describe the medical device from dimensions such as basic information, communication subject, operation information, and position information, and meanwhile, each dimension vertically includes a plurality of attributes for describing the implementation process of the dimension. The basic information is used for describing basic characteristics of the medical equipment, such as equipment names and types, types of synchronous states with the medical equipment digital twin, networking protocols, data transmission formats and other attributes; the communication subject is used for describing relevant parameters of the medical device entity in communication with the medical device digital twin; the operational information and the positional information define information content of the medical device entity that is synchronized with the medical device digital twin.

Because the medical equipment object model supports multi-dimensional multi-attribute transverse and longitudinal extension, a digital twin body of the medical equipment created according to the medical equipment object model can infinitely approach a medical equipment entity in a medical scene.

After the server side creates the digital twin bodies of all rooms and the digital twin bodies of all medical equipment, a room information set and a medical equipment information set are also established. The room information set is used for storing information of each room digital twin, and the medical device information set is used for storing information of each medical device digital twin.

How to acquire information related to the digital twin of each room and the digital twin of each medical device? According to the embodiment, the dynamic environment identification equipment is adopted to acquire information of a room in a real medical scene, the dynamic energy identification equipment is adopted to acquire information, and the acquired information is transmitted to the server through the Internet of things.

Among the collected related information, the location-related information is mainly the identification numbers of the rooms and the medical devices. Since the location of a room is not changed, the identification number of each room can be used as the location identification of the room. When the medical device is in a room, the position of the medical device is determined at the current moment, so that the medical device identification number can also be used as the position identification of the medical device.

Before collecting information, the dynamic environment identification equipment is bound with a real room, and one or more dynamic environment identification equipment is bound in one room. And binding the dynamic energy identification equipment with the real medical equipment, wherein one medical equipment is bound with one dynamic energy identification equipment. The identification numbers of all rooms and all medical devices are unique and different.

Each dynamic environment identification device broadcasts the room identification number of the room bound to it out in real time, in addition to transmitting information about the room bound to it to the room object model. When the medical equipment is in a certain room, the dynamic energy identification equipment bound with the medical equipment receives the room identification number sent by the dynamic environment identification equipment in the room, and transmits the received room identification number and the relevant information of the medical equipment to the server.

The server receives room related information sent by the dynamic environment identification equipment bound with the room in the medical scene and medical equipment related information sent by the dynamic energy identification equipment bound with the medical equipment in the medical scene through the Internet of things, writes the room related information into a room object model, transmits the room related information to a room digital twin organism through the room object model and stores the room related information in a room information set; and writing the related information of the medical equipment into the medical equipment object model, transmitting the related information of the medical equipment to the digital twin of the medical equipment through the medical equipment object model, and storing the related information of the medical equipment in the medical equipment information set.

When the server receives a medical equipment information query request sent by the client, acquiring a medical equipment identification number from the medical equipment information query request, querying a medical equipment information set according to the medical equipment identification number, acquiring a corresponding medical equipment digital twin body, and returning position information of the medical equipment digital twin body in a room digital twin body and medical equipment related information to the client;

or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client.

Example two

The above embodiment describes a medical device monitoring method based on a digital twin in the embodiment of the present invention in detail, and the following describes a medical device monitoring system based on a digital twin in the embodiment of the present invention in detail.

Referring to fig. 2, the digital twin-based medical device monitoring system includes:

the digital twin body creation module 1 is used for creating a room digital twin body and a medical equipment digital twin body matched with a medical scene at a server side, and creating a room information set corresponding to the room digital twin body and a medical equipment information set corresponding to the medical equipment digital twin body;

the information acquisition module 2 is used for the server side to acquire room related information corresponding to the room digital twin and medical equipment related information corresponding to the medical equipment digital twin, and respectively write the room related information and the medical equipment related information into the room information set and the medical equipment information set;

the monitoring module 3 is used for acquiring a medical equipment identification number from a medical equipment information query request sent by a client when the server receives the medical equipment information query request, querying the medical equipment information set according to the medical equipment identification number to acquire a corresponding medical equipment digital twin, and returning position information of the medical equipment digital twin in a room digital twin and medical equipment related information to the client; or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client.

Each module in the above medical device monitoring system based on the digital twin corresponds to each step in the first embodiment one to one, and the implementation functions and method thereof are also similar to the method in the first embodiment, and are not described herein again.

EXAMPLE III

The second embodiment of the present invention describes the digital twin-based medical device monitoring system in detail from the perspective of the modular functional entity, and the digital twin-based medical device monitoring system in the embodiment of the present invention is described in detail from the perspective of hardware processing.

Referring to fig. 3, the digital twin-based medical device monitoring system includes:

a server 10 for creating a room digital twin 101 and a medical device digital twin 102 matching a medical scene, and establishing a room information set corresponding to the room digital twin 101 and a medical device information set corresponding to the medical device digital twin 102;

a dynamic environment identification device 20 bound to a room in a medical scene for transmitting room-related information to the server 10;

the dynamic energy identification device 30 is bound with the medical device in the medical scene and used for transmitting the relevant information of the medical device to the server 10;

wherein, the dynamic environment identification device 20 broadcasts the room identification number in real time, and the dynamic energy identification device 30 receives the identification number broadcasted by the dynamic environment identification device 20 of the room where the medical device is located;

the server 10 receives the room-related information and the medical equipment-related information and writes the room-related information and the medical equipment-related information into a room information set and a medical equipment information set, respectively;

when receiving a medical device information query request sent by a client, the server 10 acquires a medical device identification number from the medical device information query request, queries a medical device information set according to the medical device identification number to acquire a corresponding medical device digital twin 102, and returns position information and medical device related information of the medical device digital twin 102 in the room digital twin 101 to the client;

or when the server 10 receives a medical equipment information change request sent by the client, the server obtains the medical equipment identification number from the medical equipment information change request, queries the medical equipment information set according to the medical equipment identification number, obtains the medical equipment related information corresponding to the medical equipment identification number, modifies the medical equipment related information according to the change request, and returns the modified medical equipment related information to the client.

Specifically, before obtaining the information, the server 10 needs to bind the dynamic environment identifier 20 with a real room, and one or more dynamic environment identifier 20 are bound in one room. The dynamic energy identification device 30 is bound with the real medical device, and one medical device is bound with one dynamic energy identification device 30. The identification numbers of all rooms and all medical equipment are unique and different.

Each dynamic environment identification device 20 broadcasts out the room identification number of the room to which it is bound in real time, in addition to transmitting information about the room to which it is bound to the room object model. When the medical device is in a certain room, the dynamic energy identification device 30 bound to the medical device receives the room identification number sent by the dynamic environment identification device 20 in the room, and transmits the received room identification number together with the relevant information of the medical device to the server. Wherein the room identification number is location information of the medical device.

Example four

Referring to fig. 4, the digital twin-based medical device monitoring system 500 may have relatively large differences due to different configurations or performances, and may include one or more processors (CPUs) 510 (e.g., one or more processors) and a memory 520, one or more storage media 530 (e.g., one or more mass storage devices) storing applications 533 or data 532. Memory 520 and storage media 530 may be, among other things, transient or persistent storage. The program stored on the storage medium 530 may include one or more modules (not shown), each of which may include a series of instructions operating on the digital twin-based medical device monitoring system 500.

Further, processor 510 may be configured to communicate with storage medium 530 to execute a series of instruction operations in storage medium 530 on digital twin-based medical device monitoring system 500.

The digital twin-based medical device monitoring system 500 may also include one or more power supplies 540, one or more wired or wireless network interfaces 550, one or more input-output interfaces 560, and/or one or more operating systems 531, such as Windows server, Vista, and the like.

Those skilled in the art will appreciate that the configuration of the digital twin-based medical device monitoring system shown in FIG. 4 does not constitute a limitation of the digital twin-based medical device monitoring system, and may include more or fewer components than shown, or some components in combination, or a different arrangement of components.

The present invention also provides a computer-readable storage medium, which may be a non-volatile computer-readable storage medium, and which may also be a volatile computer-readable storage medium. The computer readable storage medium has stored therein instructions, which when executed on a computer, cause the computer to perform the steps of the digital twin-based medical device monitoring method of the first embodiment.

The modules in the second embodiment, if implemented in the form of software functional modules and sold or used as independent products, may be stored in a computer-readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-only memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described apparatuses and devices may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments. Even if various changes are made to the present invention, it is still within the scope of the present invention if they fall within the scope of the claims of the present invention and their equivalents.

Claims (7)

1. A medical device monitoring method based on a digital twin body is characterized by comprising the following steps:

s1: the server side creates a room digital twin body and a medical equipment digital twin body which are matched with a medical scene, and establishes a room information set corresponding to the room digital twin body and a medical equipment information set corresponding to the medical equipment digital twin body;

s2: the server side obtains room related information corresponding to the room digital twin and medical equipment related information corresponding to the medical equipment digital twin, and writes the room related information and the medical equipment related information into the room information set and the medical equipment information set respectively; the medical equipment related information comprises basic medical equipment information, a communication theme between the medical equipment related information and the medical equipment digital twin body, medical equipment operation information and position information;

s3: when the server receives a medical equipment information query request sent by the client, acquiring a medical equipment identification number from the medical equipment information query request, querying the medical equipment information set according to the medical equipment identification number to acquire a corresponding medical equipment digital twin body, and returning position information of the medical equipment digital twin body in a room digital twin body and medical equipment related information to the client; or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client.

2. The digital twin-based medical device monitoring method according to claim 1, wherein the step S1 further includes:

the server side establishes a room digital twin body corresponding to the room object model according to the room object model; a data interaction mode and interaction content with the room digital twin are defined in the room object model;

according to a medical equipment object model, establishing a medical equipment digital twin body corresponding to the medical equipment object model; and a data interaction mode and interaction content with the medical equipment data twin are defined in the medical equipment object model.

3. The digital twin-based medical device monitoring method according to claim 2, wherein the step S2 further includes:

s21: the server receives room related information sent by the dynamic environment identification equipment bound with the room in the medical scene and medical equipment related information sent by the dynamic energy identification equipment bound with the medical equipment in the medical scene through the Internet of things;

s22: writing the room-related information into the room object model, transmitting the room-related information to the room digital twin through the room object model, and storing the room-related information in a room information set;

s23: and writing the related information of the medical equipment into the medical equipment object model, transmitting the related information of the medical equipment to the digital twin of the medical equipment through the medical equipment object model, and storing the related information of the medical equipment in a medical equipment information set.

4. A digital twin-based medical device monitoring system, comprising:

the digital twin body creation module is used for creating a room digital twin body and a medical equipment digital twin body matched with a medical scene at a server side, and creating a room information set corresponding to the room digital twin body and a medical equipment information set corresponding to the medical equipment digital twin body;

the information acquisition module is used for the server side to acquire room related information corresponding to the room digital twin and medical equipment related information corresponding to the medical equipment digital twin, and respectively write the room related information and the medical equipment related information into the room information set and the medical equipment information set;

the monitoring module is used for acquiring a medical equipment identification number from a medical equipment information inquiry request sent by a client when the server receives the medical equipment information inquiry request, inquiring the medical equipment information set according to the medical equipment identification number to acquire a corresponding medical equipment digital twin, and returning position information of the medical equipment digital twin in a room digital twin and medical equipment related information to the client; or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client.

5. A digital twin-based medical device monitoring system, comprising:

the server is used for creating a room digital twin and a medical equipment digital twin matched with a medical scene and establishing a room information set corresponding to the room digital twin and a medical equipment information set corresponding to the medical equipment digital twin;

the dynamic environment identification device is bound with the room in the medical scene and used for transmitting the room related information to the server;

the dynamic energy identification device is bound with the medical device in the medical scene and used for transmitting the related information of the medical device to the server;

the dynamic environment identification equipment broadcasts a room identification number outwards in real time, and the dynamic energy identification equipment receives the identification number broadcasted by the dynamic environment identification equipment in the room where the medical equipment is located;

the server receives the room related information and the medical equipment related information and writes the room related information and the medical equipment related information into the room information set and the medical equipment information set respectively;

when the server receives a medical equipment information query request sent by a client, acquiring a medical equipment identification number from the medical equipment information query request, querying the medical equipment information set according to the medical equipment identification number to acquire a corresponding medical equipment digital twin body, and returning position information of the medical equipment digital twin body in a room digital twin body and medical equipment related information to the client;

or when the server receives a medical equipment information change request sent by the client, acquiring a medical equipment identification number from the medical equipment information change request, inquiring the medical equipment information set according to the medical equipment identification number, acquiring medical equipment related information corresponding to the medical equipment identification number, modifying the medical equipment related information according to the change request and returning the modified medical equipment related information to the client.

6. A digital twin-based medical device monitoring system comprising a memory having instructions stored therein and at least one processor, the memory and the at least one processor interconnected by a line;

the at least one processor invokes the instructions in the memory to cause the digital twin-based medical device monitoring system to perform the digital twin-based medical device monitoring method of any of claims 1-3.

7. A computer-readable storage medium, having a computer program stored thereon, which, when being executed by a processor, implements the digital twin-based medical device monitoring method according to any one of claims 1-3.

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