CN112804194B - 5G-based electronic infusion pump remote monitoring method, system and network side server - Google Patents

Abstract

The invention belongs to the field of electronic infusion pumps. Aiming at the problem that the setting state and current operating state of the infusion pump cannot be remotely monitored in the prior art, a 5G-based electronic infusion pump remote monitoring method, system and network side server are proposed; The method includes: obtaining initial information of the electronic infusion pump, the initial information including setting parameter information, operating data information and alarm information; encrypting the initial information to form encrypted information; sending the encrypted information to the labor pains intelligent equipment management system ; The labor pains intelligent equipment management system decrypts the encrypted information to form decrypted information; and outputs the decrypted information. Realize remote monitoring of electronic infusion pump status, real-time alarm push, remote sound and light alarm of electronic infusion pump, truly achieve 24-hour monitoring, save monitoring personnel and reduce inspection frequency to release medical resources.

Description

5G-based electronic infusion pump remote monitoring method, system and network side server

technical field

The invention belongs to the field of electronic infusion pumps, and specifically relates to a 5G-based electronic infusion pump remote monitoring method, system and network side server.

Background technique

With the development of science and technology, medical equipment is also constantly improving. The traditional ordinary intravenous infusion can not monitor the flow rate of the infusion to achieve accurate drug administration. For clinical micro-infusion of medicinal liquid, ordinary intravenous infusion can no longer satisfy, so it was born Infusion pump, the treatment is more individualized; currently there are various types of infusion pumps on the market, but their functions are relatively single, which poses a great safety hazard. The infusion pump is a device for administering drugs to patients, and it is not allowed to appear Any mistake, everything is closely related to the patient's condition. The existing infusion pump has a relatively simple structure. During the operation, care must be taken to keep the venous access smooth. After the occurrence of blockage, blood return, etc., it is necessary to deal with it in time. , in the case of insufficient manpower in the hospital, 24-hour monitoring cannot be achieved, and sometimes it is impossible to have medical staff to take measures quickly, which affects the treatment effect, and even threatens the lives of some patients, causing medical accidents, so it is necessary A method for remote monitoring of electronic infusion pumps.

The patent application with the application number CN201610771629.5 discloses a remote alarm device for an electronic infusion pump, which is characterized in that it includes an infusion pump main body, an alarm device, a flow monitoring device, a signal transmitter, and a signal receiver; The alarm device is provided with an alarm threshold, the flow monitoring device is used to detect the flow of the liquid, the signal transmitter is located in the main body of the infusion pump and connected to the alarm device; the signal receiver can receive the signal sent by the signal transmitter signal, a cross section of the signal receiver is circular and located on the wearable device. The present invention can realize the remote alarm of the infusion pump, can save human resources, does not cause waste of personnel, truly achieves 24-hour protection, and reduces the dependence of the infusion pump on medical personnel. This patent preliminarily realizes the push of the alarm, but it cannot remotely monitor the setting status and current operation status of the infusion pump. In addition, this patent requires an external wearable receiver, and the receiver relies on the wireless network of the hospital. Regardless of the configuration complexity, Connection stability, number of connections, security, etc. all have great disadvantages, so a safe and reliable remote monitoring method for electronic infusion pumps that support a large number of devices is needed.

Contents of the invention

The present invention provides a 5G-based electronic infusion pump remote monitoring method, system, and network-side server, which are used to solve the problem in the prior art that the setting state and current operating state of the infusion pump cannot be remotely monitored.

The basic solution of the present invention is: a 5G-based electronic infusion pump remote monitoring method, which is characterized in that it includes:

Obtain the initial information of the electronic infusion pump, the initial information includes setting parameter information, operating data information and alarm information;

Encrypt the initial information to form encrypted information;

Send the encrypted information to the labor pains intelligent equipment management system;

The labor pains intelligent equipment management system decrypts the encrypted information to form decrypted information;

Output the decrypted information.

Beneficial effect: the present invention is based on the 5G remote monitoring method of the electronic infusion pump. By embedding a customized NB communication acquisition module on the existing electronic infusion pump, the setting parameter information, operating data information and alarm information in the electronic infusion pump can be pushed to the cloud labor intelligent equipment management system. The present invention can realize remote monitoring of the state of the electronic infusion pump, real-time alarm push, realize remote sound and light alarm of the electronic infusion pump, truly achieve 24-hour monitoring, save monitoring personnel and reduce inspection frequency to release medical resources.

Further, said encrypting the initial information to form encrypted information specifically includes:

The initial data is encrypted using the RSA asymmetric encryption algorithm.

Further, after the initial data is encrypted using the RSA asymmetric encryption algorithm, it also includes:

Do another obfuscation calculation on the encrypted data packet, module number and specific key to form encrypted information.

Further, 5G technology is used for communication between the electronic infusion pump and the labor pain intelligent equipment management system.

Further, said outputting said decryption information includes:

sending said decrypted information to medical personnel;

Display the decrypted information.

Further, the displaying the decrypted information includes:

Read the alarm information in the decrypted information, and perform sound and light reminders according to the alarm information;

Reading the setting parameter information and operating data information in the decrypted information, and visually displaying the setting parameter information and operating data information.

The present invention also provides a 5G-based remote monitoring system for electronic infusion pumps, including: electronic infusion pumps, labor pain intelligent equipment management systems, and medical and nursing clients; electronic infusion pumps include a pump body and a NB communication acquisition module installed on the pump body group, the NB communication acquisition module includes an acquisition module, a processing module and a communication module; the labor pains intelligent device management system includes a signal receiving module, a decryption module and a signal sending module;

The collection module is used to obtain the initial information of the pump body, and send the initial information to the processing module; the initial information includes setting parameter information, operating data information and alarm information;

The processing module is used to encrypt the initial information to obtain encrypted information, and send the encrypted information to the communication module;

The communication module is used to send the encrypted information to the signal receiving module of the labor pains intelligent device management system through the NB-IOT of 5G;

The signal receiving module is used to receive the encrypted information sent by the communication module of the NB communication acquisition module, and send the encrypted information to the decryption module;

The decryption module is used to decrypt the encrypted information into decrypted information, and send the decrypted information to the output module;

The output module is used to output the decrypted information and send the decrypted information to the medical client.

Further, the NB communication acquisition module is embedded in the pump body, and the pump body is provided with a communication serial port; the acquisition module is connected to the communication serial port of the pump body to obtain the setting parameter information, operating data information and Alarm information.

The present invention also provides a network side server, at least one processor; and,

a memory communicatively coupled to the at least one processor; wherein,

The memory stores instructions executable by the at least one processor, and the instructions are executed by the at least one processor, so that the at least one processor can perform the 5G-based Electronic infusion pump remote monitoring method.

The present invention provides a computer-readable storage medium, which stores a computer program, and when the computer program is executed by a processor, the 5G-based electronic infusion pump remote monitoring method described in any one of the above-mentioned methods is implemented.

Description of drawings

Fig. 1 is a flowchart of an embodiment of a 5G-based electronic infusion pump remote monitoring method provided by the first embodiment of the present invention;

FIG. 2 is a block diagram of a 5G-based electronic infusion pump remote monitoring device provided by the second embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a network-side server provided by a third embodiment of the present invention.

Implementation

Further detailed explanation through specific implementation mode below:

In order to make the purpose, technical solutions and advantages of the embodiments of the present invention more clear, various implementation modes of the present invention will be described in detail below in conjunction with the accompanying drawings. However, those of ordinary skill in the art can understand that, in each implementation manner of the present invention, many technical details are provided for readers to better understand the present application. However, even without these technical details and various changes and modifications based on the following implementation modes, the technical solution claimed in this application can also be realized.

First implementation mode:

The first embodiment of the present invention provides a 5G-based remote monitoring method for electronic infusion pumps, including: acquiring initial information of electronic infusion pumps, the initial information including setting parameter information, operating data information and alarm information; encrypting the initial information , forming encrypted information; sending the encrypted information to the labor pains intelligent device management system; the labor pains intelligent device management system decrypts the encrypted information to form decrypted information; and outputs the decrypted information.

In this embodiment, by embedding a customized NB communication acquisition module on the existing electronic infusion pump, the setting parameter information, operating data information and alarm information in the electronic infusion pump can be pushed to the cloud labor pain intelligent equipment management system middle. Compared with the existing remote monitoring methods for electronic infusion pumps through Bluetooth, Wi-Fi and other technologies, the 5G standard NB-IOT technology adopted in the present invention realizes low power consumption, wide-area connection, large connection and low delay. At the same time, it eliminates the need to pre-deploy gateways and routes on site, greatly reduces the preconditions for users to use, and also saves the network operation and maintenance of on-site equipment, making its promotion and application wider and more convenient. The present invention can realize remote monitoring of the state of the electronic infusion pump, real-time alarm push, realize remote sound and light alarm of the electronic infusion pump, truly achieve 24-hour monitoring, save monitoring personnel and reduce inspection frequency to release medical resources.

The implementation details of the 5G-based electronic infusion pump remote monitoring method in this embodiment are described below in detail. The following content is only the implementation details provided for easy understanding, and is not necessary to implement this solution. The specific flow of this embodiment is shown in Figure 1 As shown, this embodiment is applied to the server on the network side.

S10, acquiring initial information of the electronic infusion pump, where the initial information includes setting parameter information, operating data information and alarm information.

Specifically, step S10 is performed by the acquisition module in the NB communication acquisition module on the electronic infusion pump, and the acquisition of initial information is directly obtained through serial communication, that is, the electronic infusion pump is provided with a serial communication interface. The acquisition device reads the initial information on the electronic infusion pump through the serial port communication.

S20. Encrypt the initial information to form encrypted information.

Specifically, this scheme adopts the RSA asymmetric encryption algorithm to encrypt the initial data; then, perform another obfuscation calculation on the encrypted data packet, module number and specific key to form encrypted information. The essence of the module number here is the module number of the NB communication acquisition module. Each electronic infusion pump will be embedded with an NB communication acquisition module, and each NB communication acquisition module corresponds to a unique module number. This method of secondary encryption and obfuscation realizes that the data packets sent by each device have no convergence, which is conducive to distinguishing various encrypted information output by each NB communication acquisition module. It is also beneficial for the medical staff to know which NB communication acquisition module of the electronic infusion pump is performing the acquisition work according to the module number in the decoded information after subsequent decoding.

S30. Send the encrypted information to the labor pains intelligent device management system.

Specifically, the communication connection between the NB communication acquisition module and the pain intelligent equipment management system is carried out through the 5G network. Compared with the existing remote monitoring methods for electronic infusion pumps through Bluetooth, Wi-Fi and other technologies, the 5G standard NB-IOT technology adopted in the present invention realizes low power consumption, wide-area connection, large connection and low delay. At the same time, it eliminates the need to pre-deploy gateways and routes on site, greatly reduces the preconditions for users to use, and also saves the network operation and maintenance of on-site equipment, making its promotion and application wider and more convenient.

S40, the labor pains intelligent device management system decrypts the encrypted information to form decrypted information.

Specifically, the decryption process here is symmetrical to the above encryption process, and the resulting decrypted information is consistent with the initial information.

S50, output decryption information.

Specifically, there are many ways to output, including: (1) Send the decrypted information to the medical staff, the decrypted information can be sent to the nearest medical staff, or to the designated medical staff, or even Send it to other medical staff in the distance to facilitate remote consultation; here, the decrypted information can be sent to one or more medical staff. (2) Read the alarm information in the decrypted information, and perform sound and light reminders according to the alarm information; read the setting parameter information and operating data information in the decrypted information, and visualize the setting parameter information and operating data information show.

The step division of the above various methods is only for the sake of clarity of description. During implementation, it can be combined into one step or some steps can be split and decomposed into multiple steps. As long as they include the same logical relationship, they are all within the scope of protection of this patent. ; Adding insignificant modifications or introducing insignificant designs to the algorithm or process, but not changing the core design of the algorithm and process are all within the scope of protection of this patent.

Second embodiment:

The reference signs in accompanying drawing 2 include: pump body 100, NB communication collection module 200, labor pain intelligent equipment management system 300, collection module 21, processing module 22, communication module 23, signal receiving module 31, decryption module 32, output Module 33.

This embodiment provides a 5G-based remote monitoring system for an electronic infusion pump, including: an electronic infusion pump, a pain management system 300 and a medical client; the electronic infusion pump includes a pump body 100 and a NB installed on the pump body 100 Communication acquisition module 200.

Specifically, the NB communication collection module 200 includes a collection module 21 , a processing module 22 and a communication module 23 . The collection module 21 is used to obtain the initial information of the pump body 100, and sends the initial information to the processing module 22; the initial information includes setting parameter information, operating data information and alarm information; the processing module 22 is used to process the initial information Perform encryption to obtain encrypted information, and send the encrypted information to the communication module 23; the communication module 23 is used to send the encrypted information to the signal receiving module 31 of the labor pains smart device management system 300 through 5G NB-IOT.

Specifically, the labor pain intelligent device management system 300 includes a signal receiving module 31 , a decryption module 32 and an output module 33 . The signal receiving module 31 is used to receive the encrypted information sent by the communication module 23 of the NB communication acquisition module 200, and sends the encrypted information to the decryption module 32; the decryption module 32 is used to decrypt the encrypted information into decrypted information , and send the decrypted information to the output module 33; the output module 33 is configured to output the decrypted information and send the decrypted information to the medical client.

It is not difficult to find that the NB communication acquisition module in this embodiment executes S10, S20 and S30 in the first embodiment, and the labor pain intelligent device management system in this embodiment executes S40 and S50 in the first embodiment. This implementation mode is a system example corresponding to the first implementation mode, and this implementation mode can be implemented in cooperation with the first or implementation mode. The relevant technical details mentioned in the first embodiment are still valid in this embodiment, and will not be repeated here to reduce repetition. Correspondingly, the relevant technical details mentioned in this implementation manner can also be applied in the first implementation manner.

It is worth mentioning that all the modules involved in this embodiment are logical modules. In practical applications, a logical unit can be a physical unit, or a part of a physical unit, or multiple physical units. Combination of units. In addition, in order to highlight the innovative part of the present invention, units that are not closely related to solving the technical problems proposed by the present invention are not introduced in this embodiment, but this does not mean that there are no other units in this embodiment.

The third embodiment:

The third embodiment of the present invention relates to a network side server. As shown in FIG. 3 , it includes at least two processors 501 and at least one memory 502 communicated with the processors; The instructions executed by the processor 501, the instructions are executed by at least one processor 501, so that at least one processor 501 can execute the steps S10-S30 or S40-S50 of the 5G-based electronic infusion pump remote monitoring method in the first embodiment above .

For example, as shown in FIG. 3 , the two processors are respectively a processor 501-A and a processor 501-B, and both the processor 501-A and the processor 501-B are connected to the memory 502, and the memory 502 stores information corresponding to the first implementation. The method is an instruction of the steps S10-S50 of the intelligent inspection method of the unmanned aerial vehicle photovoltaic power station based on 5G image transmission and target detection, wherein the processor 501-A executes the instructions in the memory 502 corresponding to the steps S10-S30 in the above-mentioned first embodiment. Instructions, the processor 501-B executes the instructions in the memory 502 corresponding to steps S40-S50 in the above implementation manner.

As an example, two memories 502 and two processors 501 may also be used, one memory 502 and one processor 501 are used as a group, and each group is packaged as a device. In the first group: the memory 502 stores instructions corresponding to steps S10-S30 in the first embodiment above, and the processor 501 is connected to the memory 502 for executing the instructions in the memory 502 . In the second group: the memory 502 stores instructions corresponding to steps S40-S50 in the first embodiment above, and the processor 501 is connected to the memory 502 for executing the instructions in the memory 502 .

Wherein, the memory 502 and the processor 501 are connected by a bus, and the bus may include any number of interconnected buses and bridges, and the bus connects one or more processors 501 and various circuits of the memory 502 together. The bus may also connect together various other circuits such as peripherals, voltage regulators, and power management circuits, all of which are well known in the art and therefore will not be further described herein. The bus interface provides an interface between the bus and the transceivers. A transceiver may be a single element or multiple elements, such as multiple receivers and transmitters, providing means for communicating with various other systems over transmission media. The data processed by the processor 501 is transmitted on the wireless medium through the antenna, and further, the antenna also receives the data and transmits the data to the processor 501 .

Processor 501 is responsible for managing the bus and general processing, and may also provide various functions including timing, peripheral interface, voltage regulation, power management and other control functions. And the memory 502 may be used to store data used by the processor 501 when performing operations.

What is described above is only an embodiment of the present invention, and the common knowledge such as the specific structure and characteristics known in the scheme is not described too much here, and those of ordinary skill in the art know all the common knowledge in the technical field to which the invention belongs before the filing date or the priority date Technical knowledge, being able to know all the existing technologies in this field, and having the ability to apply conventional experimental methods before this date, those of ordinary skill in the art can improve and implement this plan based on their own abilities under the inspiration given by this application, Some typical known structures or known methods should not be obstacles for those of ordinary skill in the art to implement the present application. It should be pointed out that for those skilled in the art, under the premise of not departing from the structure of the present invention, some modifications and improvements can also be made, which should also be regarded as the protection scope of the present invention, and these will not affect the implementation of the present invention. Effects and utility of patents. The scope of protection required by this application shall be based on the content of the claims, and the specific implementation methods and other records in the specification may be used to interpret the content of the claims.

Claims (7)

1. The remote monitoring method of the electronic infusion pump based on 5G is characterized by comprising the following steps:

acquiring initial information of the electronic infusion pump, wherein the initial information comprises set parameter information, operation data information and alarm information; specifically, the acquisition module in the NB communication acquisition module on the electronic infusion pump is used for acquiring initial information directly through serial communication;

encrypting the initial information to form encrypted information; encrypting the initial data by adopting an RSA asymmetric encryption algorithm, and performing confusion calculation on the encrypted data packet, the module number and the specific key again to form encryption information; the essence of the module number is the module number of the NB communication acquisition module, each electronic infusion pump is internally embedded with the NB communication acquisition module, and each NB communication acquisition module corresponds to a unique module number;

the encryption information is sent to a pain-relieving intelligent equipment management system;

the intelligent pain management system decrypts the encrypted information to form decrypted information;

outputting the decryption information.

2. The 5G-based electronic infusion pump remote monitoring method of claim 1, wherein: and the electronic infusion pump is communicated with the pain relieving intelligent equipment management system by adopting a 5G technology.

3. The 5G-based electronic infusion pump remote monitoring method of claim 1, wherein: said outputting said decryption information comprising:

sending the decryption information to a medical staff;

displaying the decryption information.

4. The 5G-based electronic infusion pump remote monitoring method of claim 3, wherein the displaying the decryption information comprises:

reading alarm information in the decryption information, and carrying out sound-light reminding according to the alarm information;

and reading the setting parameter information and the operation data information in the decryption information, and visually displaying the setting parameter information and the operation data information.

5. 5G-based electronic infusion pump remote monitoring system, characterized by comprising: an electronic infusion pump, an intelligent pain-relieving equipment management system and a medical client; the electronic infusion pump comprises a pump body and an NB communication acquisition module arranged on the pump body, wherein the NB communication acquisition module comprises an acquisition module, a processing module and a communication module; the pain-relieving intelligent equipment management system comprises a signal receiving module, a decryption module and a signal sending module;

the acquisition module is used for acquiring initial information of the pump body and sending the initial information to the processing module; the initial information comprises setting parameter information, operation data information and alarm information;

the processing module is used for encrypting the initial information to obtain encrypted information and sending the encrypted information to the communication module; encrypting the initial data by adopting an RSA asymmetric encryption algorithm, and performing confusion calculation on the encrypted data packet, the module number and the specific key again to form encryption information; the essence of the module number is the module number of the NB communication acquisition module, each electronic infusion pump is internally embedded with the NB communication acquisition module, and each NB communication acquisition module corresponds to a unique module number;

the communication module is used for sending the encrypted information to a signal receiving module of the pain intelligent equipment management system through the 5G NB-IOT;

the signal receiving module is used for receiving the encryption information sent by the communication module of the NB communication acquisition module and sending the encryption information to the decryption module;

the decryption module is used for decrypting the encrypted information into decryption information and sending the decryption information to the output module;

the output module is used for outputting decryption information and sending the decryption information to the medical client;

the NB communication acquisition module is embedded into the pump body, and the pump body is provided with a communication serial port; the acquisition module is connected with a communication serial port of the pump body to acquire set parameter information, operation data information and alarm information of the pump body.

6. The network side service end is characterized in that: at least one processor; the method comprises the steps of,

a memory communicatively coupled to the at least one processor; wherein,,

the memory stores instructions executable by the at least one processor to enable the at least one processor to perform the 5G-based electronic infusion pump remote monitoring method of any one of claims 1 to 4.

7. A computer readable storage medium storing a computer program, wherein the computer program when executed by a processor implements the 5G-based electronic infusion pump remote monitoring method of any one of claims 1 to 4.

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