CN116567038B - Medical equipment operation monitoring system - Google Patents

Abstract

The invention discloses a medical equipment operation monitoring system, which belongs to the technical field of medical equipment monitoring and comprises a communication authority module, a data acquisition module and a monitoring module; the communication authority module is used for interfacing with each target medical device in a hospital, verifying the data access authority of each target medical device, and the data acquisition module is used for acquiring the operation data of each target medical device and obtaining the monitoring acquisition data corresponding to each target medical device; the monitoring module is used for monitoring the collected monitoring data of each target medical device and establishing a corresponding monitoring display model, and the monitoring display model is managed by a monitoring party; inputting the obtained monitoring acquisition data of each target medical device into a monitoring display model for display; and setting an analysis unit, wherein the analysis unit is used for analyzing the display data of each target medical device in the monitoring display model in real time to obtain the running state of each target medical device.

Description

Medical equipment operation monitoring system

Technical Field

The invention belongs to the technical field of medical equipment monitoring, and particularly relates to a medical equipment operation monitoring system.

Background

Medical equipment is an important sign of modernization degree, is the most basic element of medical, scientific research, teaching and education work, and is a basic condition for continuously improving the medical science and technology level. With the continuous development of medical instruments, various medical devices are updated for a plurality of times.

In a medical system, various medical devices in a hospital need to be routinely maintained and managed; the working state and other data of the medical equipment are known through daily monitoring; however, at present, medical equipment of different factories is used in the same hospital, unified data monitoring is difficult among the medical equipment of each factory due to reasons of factory protocols, data confidentiality and the like, especially, data monitoring of the medical equipment with measures of confidentiality, encryption and the like is extremely difficult for a designated monitoring party of the hospital to perform corresponding equipment monitoring, monitoring can only be performed through an original medical equipment provider, especially, monitoring of the medical equipment which is frequently rented and has high price is more difficult, the unified data monitoring is extremely difficult for the hospital, operation monitoring of the medical equipment is not facilitated for the hospital, and each medical equipment party independently monitors and feeds back the data, so that the problem of data feedback delay is caused, and especially, the data is falsified by the medical equipment provider under certain severe conditions; the above phenomenon will bring a great obstacle to the monitoring of the data of the equipment of the hospital.

Disclosure of Invention

In order to solve the problems of the scheme, the invention provides a medical equipment operation monitoring system to solve the problem that medical equipment of various factories in the existing hospital is difficult to uniformly monitor.

The aim of the invention can be achieved by the following technical scheme:

a medical equipment operation monitoring system comprises a communication authority module, a data acquisition module and a monitoring module;

the communication authority module is used for docking each target medical device in a hospital, verifying the data access authority of each target medical device, and comprises a device side unit, a monitoring side unit and a yard side unit, wherein the device side unit, the monitoring side unit and the yard side unit are used by the device side, the monitoring side and the yard side respectively, and users corresponding to the device side unit and the monitoring side unit are arranged by the yard side unit.

Further, the working method of the communication authority module comprises the following steps:

the courtyard side sets target medical equipment through the courtyard side unit; the monitoring party generates a monitoring access demand corresponding to the target medical equipment through a monitoring party unit according to the monitoring demand, wherein the monitoring access demand comprises target medical equipment information, access data types and demand specifications; sending the monitoring access requirement to the courtyard unit, and sending the monitoring access requirement to the equipment side unit after passing the examination of the courtyard unit;

after the verification of the equipment side is passed, a data verification block corresponding to the target medical equipment and a block code corresponding to the data verification block are set, wherein the data verification block is used for verifying the data access authority of the corresponding target medical equipment, and the data verification block comprises application verification data, access verification data and decryption data; the block code is used for verifying and retrieving a corresponding data verification block and is matched with application verification data in the data verification block;

marking the set data verification block with a corresponding target medical equipment label and then storing the data verification block into a preset access library; the block code is sent to the monitor unit.

Further, the application verification data within the data verification block set by the device side has a lifetime.

Further, after the device side transmits the corresponding block code to the monitor side, the device side adjusts the service life of the application verification data according to the service life of the application verification data.

Further, the application verification data includes monitor device IP address verification.

The data acquisition module is used for acquiring the operation data of each target medical device and acquiring the monitoring acquisition data corresponding to each target medical device.

Further, the working method of the data acquisition module comprises the following steps:

when the operation data of the corresponding target medical equipment is required to be acquired, an acquisition instruction of the corresponding target medical equipment is generated, the acquisition instruction is sent to the communication authority module, and after the communication authority module passes verification, the data acquisition is performed on the corresponding target medical equipment, so that the corresponding monitoring acquisition data are obtained.

Further, the method for judging the acquisition time of each target medical device comprises the following steps: and judging according to a preset acquisition time scheme of each target medical device.

Further, the process of verifying the connectivity right module according to the acquisition instruction comprises the following steps:

identifying target medical equipment corresponding to the acquisition instruction, acquiring a block code in the monitoring party unit according to the target medical equipment, verifying and retrieving a corresponding data verification block from an access library according to the block code, and verifying the target medical equipment corresponding to the obtained data verification block.

The monitoring module is used for monitoring the collected monitoring data of each target medical device and establishing a corresponding monitoring display model, and the monitoring display model is managed by a monitoring party; inputting the obtained monitoring acquisition data of each target medical device into a monitoring display model for display;

the system comprises a monitoring display model, an analysis unit, a display unit and a control unit, wherein the monitoring display model is used for monitoring the display data of all target medical equipment in the monitoring display model, the analysis unit is used for analyzing the display data of all the target medical equipment in real time to obtain the running state of all the target medical equipment, and the obtained running state is displayed in the monitoring display model in real time.

Further, setting a conversion channel of display data of each target medical device based on the monitoring display model, wherein the conversion channel is used for converting corresponding display data in the monitoring display model into secondary data, and the secondary data is monitoring data which can be understood by a manager of the institution; establishing a corresponding secondary model according to each conversion channel, wherein the secondary model is used for displaying secondary data converted from corresponding display data in the monitoring display model in real time; the secondary model is respectively arranged at the courtyard and the monitoring party, the secondary model arranged at the courtyard is managed by courtyard management staff, and the secondary model arranged at the monitoring party and the monitoring display model are displayed in parallel.

Further, secondary data for an operating state transition, which includes an operating state, a corresponding operating state interpretation, and the occurrence of an impact of the operating state.

Compared with the prior art, the invention has the beneficial effects that:

the communication authority module, the data acquisition module and the monitoring module are mutually matched, so that the same monitoring of the hospital on each target medical device is realized, the courtyard can know the running state of each target medical device in time, the data partition among different existing device parties is broken, the problem of delay of data feedback caused by independent monitoring and feedback of each device party is solved, and the possible problem of data falsification is avoided; through various auditing and limiting measures in the connectivity authority module, the data security of the equipment side is ensured, abuse and leakage of related data are avoided, and the open trust of the data of the equipment side is improved; avoiding data opening because of worry about data security.

The secondary model is additionally arranged in the monitoring module, so that the requirement of watching data by the courtyard party is met, and the corresponding data is converted into secondary data which can be intuitively understood by the courtyard party, so that the situation that the corresponding display data cannot be well understood due to the fact that the courtyard party lacks sufficient relevant expertise is avoided; the secondary model is respectively arranged at the courtyard and the monitoring party, management is carried out by a manager of the courtyard through the secondary model arranged at the courtyard, the secondary model arranged at the monitoring party and the monitoring display model are displayed in parallel, and in the display process, when the secondary model has a display error, the corresponding monitoring party technician can timely check out problems and carry out corresponding correction, and relearning data corresponding to the artificial intelligent model can be formed.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art.

FIG. 1 is a schematic block diagram of the present invention;

FIG. 2 is a schematic diagram of the operation of the communication authority module of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 2, a medical equipment operation monitoring system comprises a communication authority module, a data acquisition module and a monitoring module;

the communication authority module is used for interfacing with each target medical device in a hospital, verifying the data access authority of each target medical device, managing and controlling the communication authority module by an institution, interfacing with each target medical device through the communication authority module, verifying the connected target medical device through a preset stored verification mode, obtaining the data access authority and data decryption of the connected target medical device, and collecting operation data of the corresponding medical device after the communication authority module verifies when the data collection module performs data collection; the specific process is as follows:

marking the medical equipment which is allowed to be monitored by the manufacturer and is in the monitoring requirement of the courtyard as target medical equipment according to the monitoring requirement of each medical equipment and the communication and negotiation result of the courtyard and the corresponding manufacturer; the method comprises the steps that a manufacturer of target medical equipment provides a corresponding data verification block, the data verification block is used for accessing and verifying the target medical equipment of the corresponding manufacturer and decrypting corresponding data, the data verification block comprises corresponding application verification data, access verification data, decryption data and other data, the decryption data is used for decrypting encrypted data with an encryption function, the access verification data is used for performing access verification on the target medical equipment, the application verification data is used for verifying when a monitoring party invokes the data verification block for use, and the data verification block cannot be used after verification passes, otherwise, the data verification block cannot be applied; the obtained data verification block is marked with a corresponding target medical equipment label and then stored in a preset access library;

since the medical device provider may not be the manufacturer, it is subsequently denoted as the device side in the present invention; setting a device side unit, a monitoring side unit and a courtyard side unit, wherein the device side unit, the monitoring side unit and the courtyard side unit are respectively used by the device side, the monitoring side and the courtyard side, and the courtyard side unit has the function of setting users for the device side unit and the monitoring side unit, namely adding according to the device side and the monitoring side used by the courtyard side, so that the courtyard side unit has the authority of using the device side unit and/or the monitoring side unit; the monitoring party unit is used for initiating a monitoring access requirement of a certain target medical device by a monitoring party, and refers to initial access, namely the requirement of the monitoring party for accessing the certain target medical device for the first time, or the monitoring access requirement of the certain target medical device is newly added, wherein the monitoring access requirement comprises target medical device information, access data types and requirement specifications, the medical device information is used for indicating the access authority of which target medical device is required, the access data types indicate which data need to be accessed, and the requirement specifications are used for describing the requirement purpose by the monitoring party and reputation information of the monitoring party, namely reputation information for indicating the monitoring party, so that the equipment party believes that a data verification block provided by the monitoring party cannot be leaked; the method comprises the steps of sending a monitoring access requirement to a courtyard unit, sending the monitoring access requirement to an equipment side unit after passing the examination of the courtyard unit, and sending a block code to a monitoring Fang Shanyuan after passing the examination of the equipment side unit, wherein the block code is used for verifying application verification data in a data verification block; the subsequent monitoring party can use the block code to call the corresponding data verification block in the access library.

The unit audit of the courtyard and the audit of the equipment are both audited by the courtyard and the equipment, and are generally audited by adopting a manual audit mode, so that all parties in the audit can communicate conveniently.

In one embodiment, in order to further improve data security and protect rights of the device side, application verification data in a data verification block set by the device side has a service life, and after the service life is reached, the device side adjusts the application verification data to make a corresponding block code invalid; after providing the corresponding block code to the monitoring party, the equipment party can adjust the service life of the application verification data according to the needs; in order to further improve security, the application verification data further includes an IP address verification of the designated device, and only the verification by the block code of the IP address can be passed, so that the monitoring party needs to communicate with the corresponding IP address of the device party. It is understood that ciphertext, key, etc. is verified.

The data acquisition module is used for acquiring the operation data of each target medical device and acquiring the monitoring acquisition data corresponding to each target medical device; the specific acquisition process is as follows:

when the operation data of a certain target medical device is required to be acquired, an acquisition instruction corresponding to the target medical device is generated, the acquisition instruction is sent to the communication authority module, and after verification is passed, the corresponding target medical device is acquired, so that corresponding monitoring acquisition data are obtained.

The process of verifying the connectivity right module according to the acquisition instruction comprises the following steps:

identifying target medical equipment corresponding to the acquisition instruction, acquiring a block code in the monitoring party unit according to the target medical equipment, verifying and retrieving a corresponding data verification block from an access library according to the block code, and verifying the target medical equipment corresponding to the obtained data verification block.

The method comprises the steps that setting of acquisition opportunities of all target medical equipment is carried out according to actual conditions of all target medical equipment, real-time acquisition is carried out on some target medical equipment according to requirements, only periodic acquisition is needed, corresponding acquisition intervals are preset for periodic acquisition, corresponding acquisition is carried out when the acquisition intervals are reached, if some target medical equipment is inconvenient to acquire or unsuitable to acquire during operation, when the acquisition intervals reach acquisition time, the current target medical equipment is not acquired in an operation state, when the target medical equipment is identified to stop operation, the acquisition time at the moment is the acquisition intervals plus corresponding operation waiting time, a corresponding acquisition opportunity scheme is set according to the actual conditions of all target medical equipment, and real-time judgment is carried out according to the set acquisition opportunity scheme.

The monitoring module is used for monitoring the collected monitoring data of each target medical device and analyzing whether the collected monitoring data have abnormal conditions or not, and the specific process comprises the following steps:

acquiring monitoring acquisition data acquired by a data acquisition module in real time; based on the existing visualization technology, a corresponding monitoring display model is established, the monitoring display model is used for displaying corresponding received monitoring acquisition data in real time, a specific monitoring display model is provided with a corresponding display mode according to monitoring and display requirements of a monitoring party and a courtyard party, and then the corresponding monitoring display model is established by combining the existing display technology, and is arranged at the monitoring party and managed by related technicians of the monitoring party; the obtained monitoring acquisition data are transmitted to a monitoring display model for real-time display; the method comprises the steps of setting an analysis unit, wherein the analysis unit is used for analyzing display data of each target medical device in a monitoring display model in real time to obtain the running states of the target medical device, such as normal running, error occurrence, abnormal state, damage and the like, and the running states of each target medical device are provided with mature analysis technologies at present, so that the corresponding analysis technologies are directly applied to the method, and the corresponding analysis units are built; and analyzing display data corresponding to each target medical device in the monitoring display model through the established analysis unit to obtain the running state of each target medical device, displaying the obtained running state in the monitoring display model in real time, and setting a corresponding early warning mode.

In one embodiment, although monitoring of each target medical device may be performed by the monitoring party, and notification of the monitoring party may be received when a problem occurs with the target medical device; but for the institution, knowledge of the operation of some or some target medical device is required in some cases; moreover, various specialized data displayed in the monitoring display model can lack certain related knowledge by related personnel of the courtyard, so that corresponding data can not be well understood; therefore, in order to solve the above-described problem, the following processing is made in the present embodiment:

setting a conversion channel of display data of each target medical device, namely, determining corresponding requirements through communication with the courtyard party, setting corresponding display data conversion modes according to the requirements to form corresponding conversion channels, and converting corresponding display data in a monitoring display model into secondary data, wherein the secondary data is the display data which meets the requirements of the courtyard party and can be understood by the courtyard party, if the running state is wrong, the courtyard party personnel may not know what the mistake is, what problems are caused, and the like, so that the data such as meaning, influence and the like need to be supplemented, and conversion is formed; establishing a corresponding secondary model according to each set conversion channel, converting display data in the monitoring display model into corresponding secondary data through the corresponding secondary conversion channel, and displaying the converted secondary data in the secondary model; for the conversion channel, the conversion method is established by utilizing the prior art, for example, a corresponding training set is set according to the corresponding conversion method, a corresponding artificial intelligent model is established based on the existing neural network, the training is performed through the established training set, and corresponding data conversion is performed through the artificial intelligent model after the training is successful, so that the neural network is the prior art in the field, and therefore, the specific establishment and training process is not described in detail;

the secondary model is respectively arranged at the courtyard and the monitoring party, the secondary model arranged at the courtyard is managed by a manager of the courtyard, the secondary model arranged at the monitoring party and the monitoring display model are displayed in parallel, and when the secondary model has a display error, namely a conversion error, in the display process, corresponding technicians can directly see and perform corresponding correction, and relearning data corresponding to the artificial intelligent model can be formed.

The above formulas are all formulas with dimensions removed and numerical values calculated, the formulas are formulas which are obtained by acquiring a large amount of data and performing software simulation to obtain the closest actual situation, and preset parameters and preset thresholds in the formulas are set by a person skilled in the art according to the actual situation or are obtained by simulating a large amount of data.

The above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.

Claims (9)

1. The medical equipment operation monitoring system is characterized by comprising a communication authority module, a data acquisition module and a monitoring module;

the communication authority module is used for interfacing with each target medical device in a hospital, verifying the data access authority of each target medical device, and comprises a device side unit, a monitoring side unit and a courtyard side unit, wherein the device side unit, the monitoring side unit and the courtyard side unit are respectively used by the device side, the monitoring side and the courtyard side, and users corresponding to the device side unit and the monitoring side unit are arranged by the courtyard side unit;

the data acquisition module is used for acquiring the operation data of each target medical device and acquiring the monitoring acquisition data corresponding to each target medical device;

the monitoring module is used for monitoring the collected monitoring data of each target medical device and establishing a corresponding monitoring display model, and the monitoring display model is managed by a monitoring party; inputting the obtained monitoring acquisition data of each target medical device into a monitoring display model for display;

the method comprises the steps of setting an analysis unit, wherein the analysis unit is used for carrying out real-time analysis on display data of each target medical device in a monitoring display model, obtaining the running state of each target medical device, and displaying the obtained running state in the monitoring display model in real time;

the working method of the communication authority module comprises the following steps:

the courtyard side sets target medical equipment through the courtyard side unit; the monitoring party generates a monitoring access demand corresponding to the target medical equipment through a monitoring party unit according to the monitoring demand, wherein the monitoring access demand comprises target medical equipment information, access data types and demand specifications; sending the monitoring access requirement to the courtyard unit, and sending the monitoring access requirement to the equipment side unit after passing the examination of the courtyard unit;

after the verification of the equipment side is passed, a data verification block corresponding to the target medical equipment and a block code corresponding to the data verification block are set, wherein the data verification block is used for verifying the data access authority of the corresponding target medical equipment, and the data verification block comprises application verification data, access verification data and decryption data; the block code is used for verifying and retrieving a corresponding data verification block and is matched with application verification data in the data verification block; marking the set data verification block with a corresponding target medical equipment label and then storing the data verification block into a preset access library; the block code is sent to the monitor unit.

2. A medical device operation monitoring system according to claim 1, wherein the application verification data within the data verification block set by the device side has a lifetime.

3. A medical device operation monitoring system according to claim 2, wherein the device side adjusts the lifetime of the application verification data based on the time period when the device side transmits the corresponding block code to the monitoring side.

4. The medical device operation monitoring system of claim 1, wherein the application verification data includes monitor device IP address verification.

5. The medical device operation monitoring system according to claim 1, wherein the data acquisition module is operative to:

when the operation data of the corresponding target medical equipment is required to be acquired, an acquisition instruction of the corresponding target medical equipment is generated, the acquisition instruction is sent to the communication authority module, and after the communication authority module passes verification, the data acquisition is performed on the corresponding target medical equipment, so that the corresponding monitoring acquisition data are obtained.

6. The medical device operation monitoring system according to claim 5, wherein the method for determining the acquisition timing of each target medical device is as follows: and judging according to a preset acquisition time scheme of each target medical device.

7. The medical device operation monitoring system according to claim 5, wherein the process of verifying by the connectivity rights module according to the collection instruction comprises:

identifying target medical equipment corresponding to the acquisition instruction, acquiring a block code in the monitoring party unit according to the target medical equipment, verifying and retrieving a corresponding data verification block from an access library according to the block code, and verifying the target medical equipment corresponding to the obtained data verification block.

8. The medical equipment operation monitoring system according to claim 1, wherein in the monitoring module, a conversion channel of display data of each target medical equipment is set based on a monitoring display model, the conversion channel is used for converting corresponding display data in the monitoring display model into secondary data, and the secondary data is monitoring data which can be understood by a courtyard manager; establishing a corresponding secondary model according to each conversion channel, wherein the secondary model is used for displaying secondary data converted from corresponding display data in the monitoring display model in real time; the secondary model is respectively arranged at the courtyard and the monitoring party, the secondary model arranged at the courtyard is managed by courtyard management staff, and the secondary model arranged at the monitoring party and the monitoring display model are displayed in parallel.

9. A medical device operation monitoring system according to claim 8, wherein for the secondary data of an operation state transition, it comprises an operation state, a corresponding operation state interpretation and an influence of the operation state.