CN113452755A - Medical equipment data processing method and device and electronic equipment - Google Patents

Abstract

The invention provides a medical equipment data processing method, a medical equipment data processing device and electronic equipment, wherein the method comprises the following steps: acquiring message data in target medical equipment through a small data processing terminal; comparing the acquired message data with a preset data protocol cluster, identifying the identity information of the target medical equipment, and determining a message protocol corresponding to the target medical equipment; and analyzing and restoring the message data through a message protocol corresponding to the target medical equipment to obtain original data corresponding to the message data. In the mode, the message data in the medical equipment is acquired through the small data processing terminal in communication connection with the medical equipment, and compared with the mode of acquiring the medical equipment data by using a desktop computer, the mode can conveniently and quickly finish the identification of the type and the model of the medical equipment and the acquisition and analysis of the medical data, and meanwhile, the mobile use scene of the medical equipment is fully considered, so that the method is suitable for various network environments of hospitals.

Description

Medical equipment data processing method and device and electronic equipment

Technical Field

The invention relates to the technical field of data processing and implementation of medical equipment, in particular to a medical equipment data processing method and device and electronic equipment.

Background

At present, a large number of medical devices are widely used in clinic for auxiliary diagnosis, monitoring or treatment, and the medical devices mainly include an electrocardiographic monitoring device, a respirator, an anesthesia machine, an anesthesia depth detector, a hemodialysis machine, and the like. Data generated by these devices is typically stored within the device and must be available to clinical personnel at the medical device for the first time. In addition, if clinical medical staff want to analyze and apply these data afterwards, it is difficult to export these data from the medical equipment, and some medical equipment only provides PDF (Portable Document Format) report externally, and there is no function of exporting raw data.

Because it is difficult to acquire medical equipment data, in the past, only when specialized application software has a data acquisition requirement, the data of one or more types of medical equipment can be acquired, analyzed and restored. In the related art, a common solution is to configure 1 independent desktop for each medical device, where the desktop is respectively interconnected with the medical device and the in-hospital network, and the desktop collects data of the medical device and then performs parsing and restoring. However, the method has high requirements on data acquisition conditions and limited applicable environment, the acquired data can only be used by specialized application software, other systems need to acquire the data again when needed, and the user is inconvenient to use the data when needing to use the data. In addition, in this working mode, generally, one set of acquisition software corresponds to one medical device, and when the medical device is replaced, another set of acquisition software needs to be installed in the computer again.

Disclosure of Invention

The invention aims to provide a medical equipment data processing method, a medical equipment data processing device and electronic equipment, so that medical equipment data can be conveniently and quickly acquired, and a user can conveniently use the medical equipment data.

In a first aspect, the invention provides a medical equipment data processing method, which is applied to electronic equipment, wherein the electronic equipment is in communication connection with at least one medical equipment through a small data processing terminal; the method comprises the following steps: acquiring message data in target medical equipment through a small data processing terminal; comparing the acquired message data with all message protocols in a preset data protocol cluster, and determining the identity information of the target medical equipment according to the comparison result; the data protocol cluster comprises a message protocol corresponding to each medical device in communication connection with the small data processing terminal and identity information of the medical device corresponding to each message protocol; determining a message protocol corresponding to the target medical equipment according to the identity information; and analyzing and restoring the message data through a message protocol corresponding to the target medical equipment to obtain original data corresponding to the message data.

In an alternative embodiment, the small data processing terminal establishes a communication connection with the target medical device through one of a USB interface, a serial interface, a network interface, a WiFi interface, a 4G interface or a 5G interface.

In an optional embodiment, if the I/O interface of the target medical device is a non-standard interface, the target medical device needs to be connected to an interface provided by the small data processing terminal through an external interface conversion line or an interface conversion device, so as to repackage the message data acquired from the target medical device into the message data in the preset format through the small data processing terminal.

In an optional embodiment, the step of acquiring the message data in the target medical device through the small data processing terminal includes: receiving message data sent by target medical equipment through a small data processing terminal; or sending a data acquisition request to at least one medical device through the small data processing terminal so as to acquire the message data in the target medical device through the data acquisition request.

In an optional implementation manner, after the step of acquiring the message data in the target medical device by using the small data processing terminal, the method further includes: and storing the acquired message data into a preset database according to a preset mode.

In an optional embodiment, after the step of analyzing and restoring the message data by using the message protocol corresponding to the target medical device to obtain the original data corresponding to the message data, the method further includes: and pushing the original data to a specified device or terminal in the form of short messages, data tables, texts or pictures.

In an optional embodiment, the method further comprises: after the small data processing terminal is in communication connection with the target medical equipment, binding equipment information of the small data processing terminal with identity information of the target medical equipment, and storing binding time and binding information into a preset database; patient information of a patient monitored by the target medical equipment is acquired, and the patient information is stored in a database, so that the patient information, the binding time and the binding information are stored in a binding mode.

In an optional embodiment, the method further comprises: after the small data processing terminal is in communication connection with the target medical equipment, monitoring the on-line time and/or working state information of the target medical equipment through the small data processing terminal, and sending the monitored on-line time and/or working state information to an equipment management party, so that the equipment management party performs asset management, equipment purchasing or equipment spare part storage.

In a second aspect, the invention provides a medical equipment data processing device, which is arranged on an electronic device, wherein the electronic device is in communication connection with at least one medical equipment through a small data processing terminal; the device includes: the message acquisition module is used for acquiring message data in the target medical equipment through the small data processing terminal; the identity determining module is used for comparing the acquired message data with all message protocols in a preset data protocol cluster and determining the identity information of the target medical equipment according to the comparison result; the data protocol cluster comprises a message protocol corresponding to each medical device in communication connection with the small data processing terminal and identity information of the medical device corresponding to each message protocol; the protocol determining module is used for determining a message protocol corresponding to the target medical equipment according to the identity information; and the data reduction module is used for analyzing and reducing the message data through the message protocol corresponding to the target medical equipment to obtain the original data corresponding to the message data.

In a third aspect, the present invention provides an electronic device comprising a small data processing terminal and a processor; the processor is configured to perform the steps of the data processing method of any one of the preceding embodiments.

The embodiment of the invention has the following beneficial effects:

the invention provides a medical equipment data processing method, a device and electronic equipment.A message data in target medical equipment is obtained through a small data processing terminal in communication connection with the target medical equipment; then, the acquired message data is compared with a preset data protocol cluster, the identity information of the target medical equipment is identified, and a message protocol corresponding to the target medical equipment is determined; and then analyzing and restoring the message data through a message protocol corresponding to the target medical equipment to obtain original data corresponding to the message data. In the mode, the message data in the medical equipment is acquired through the small data processing terminal in communication connection with the medical equipment, and compared with the mode of acquiring the medical equipment data by using a desktop computer, the mode can conveniently and quickly finish identification of the medical equipment identity and acquisition and analysis of the medical data, and meanwhile, the mobile use scene of the medical equipment is fully considered, so that the method is suitable for various network environments of hospitals.

Furthermore, the interface on the small data processing terminal is in communication connection with the medical equipment, so that the data acquisition condition is reduced, the system can be operated on the small data processing terminal through the compact and low-energy-consumption design, and the data transmission mode is expanded in multiple wireless modes.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention as set forth above.

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

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a flowchart of a data processing method for a medical device according to an embodiment of the present invention;

FIG. 2 is a flow chart of another method for processing data of a medical device according to an embodiment of the present invention;

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

fig. 4 is a schematic structural diagram of an electronic device according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the related art, a method for acquiring medical device data generally includes configuring 1 independent desktop for each medical device, where the desktop is respectively interconnected with the medical device and the in-hospital network, and the desktop analyzes and restores the medical device data after acquiring the medical device data. However, this approach has the following disadvantages: 1) the data acquisition conditions are high: a matching computer (namely the desktop computer) is required, and a network interface is required to be arranged near the equipment; 2) the applicable environment is limited: the medical device is suitable for medical scenes used in fixed places of medical equipment, and is not suitable for application scenes which need to be changed frequently in use places or used in a mobile mode; 3) the acquired medical equipment data can only be used by the application software of a special department, other systems need to be acquired again when needed, and the user is inconvenient to use the data; 4) one device corresponds to one set of acquisition software, and when the medical device is replaced, another set of acquisition software needs to be installed in the computer again.

Based on the above problems, embodiments of the present invention provide a medical device data processing method, apparatus and electronic device; the techniques may be applied in the context of the acquisition, interpretation and transmission of data in various medical devices. In order to facilitate understanding of the embodiment of the present invention, a detailed description is first provided for a data processing method of a medical device according to the embodiment of the present invention, as shown in fig. 1, the method is applied to an electronic device, and the electronic device establishes a communication connection with at least one medical device through a small data processing terminal; as shown in fig. 1, the method comprises the following specific steps:

and S102, acquiring message data in the target medical equipment through the small-sized data processing terminal.

The target medical device can be any one of at least one medical device which is connected with the small-sized data processing terminal in a communication mode; the medical equipment can be an electrocardiogram monitoring device, a breathing machine, an anesthesia depth detector, a hemodialysis machine and the like. Specifically, the small data processing terminal may establish a communication connection with the target medical device through one of a USB (Universal Serial Bus) interface, a Serial interface, a network interface, a WiFi (Wireless Fidelity) interface, a 4G (the 4th generation mobile communication technology, fourth generation mobile communication technology) interface, or a 5G (5th generation mobile communication technology) interface. Usually only one medical device is connected to one interface.

In a specific implementation, if the I/O interface of the target medical device is a non-standard interface, the target medical device needs to be connected to an interface provided by the small data processing terminal through an external interface conversion line or interface conversion device, so that the small data processing terminal repacks the message data acquired from the target medical device into the message data in the preset format. It can also be understood that, for some medical devices without networking capability, that is, when the medical device itself does not provide a network interface, a serial port, a WiFi or 4G interface or a 5G interface, data acquisition cannot be achieved through a universal network interface, at this time, a non-standard interface of the medical device may be physically connected through an external interface transfer line or an interface conversion device, and then protocol conversion is completed through software, so that message data received from the medical device is repackaged through a format of network transmission (equivalent to the preset format), thereby achieving network access processing of the medical device. The method networks the medical equipment without networking capability, adopts a data reconstruction method to conveniently complete the networking of the medical equipment without a network interface, and transmits the medical equipment data to any node required by a user through a network.

After the small data processing terminal is in communication connection with the target medical equipment, the message data in the target medical equipment can be actively or passively acquired through the data interface connected with the target medical equipment through the small data processing terminal.

Step S104, comparing the acquired message data with all message protocols in a preset data protocol cluster, and determining the identity information of the target medical equipment according to the comparison result; the data protocol cluster comprises a message protocol corresponding to each medical device in communication connection with the small data processing terminal and identity information of the medical device corresponding to each message protocol.

The data protocol cluster comprises transmission protocols corresponding to each medical device, and each transmission protocol corresponds to a different message protocol; the transmission protocol is determined by the data interface of the medical device connected to the small data processing terminal. In specific implementation, the acquired message data is compared with a specific index value in a message protocol in a data protocol cluster, so that a comparison result can be obtained, wherein the comparison result includes a message protocol matched with the message data in the data protocol cluster and identity information of medical equipment corresponding to the message protocol, and the identity information includes but is not limited to equipment type, equipment name, equipment model, software version in equipment and the like.

Aiming at different medical devices, each message protocol of the data protocol cluster contains specific indexes of each device type and model. The specific implementation process of the step S104 may be: detecting the acquired message data by adopting a normal value range of a specific index in a message protocol, and judging whether the message data is normally analyzed according to whether each frame of data in the message data can be normally analyzed to obtain data in a reasonable range; or making a table according to the analyzed data, manually judging whether the read protocol is correct, and starting protocol analysis after manually confirming.

For example, when the medical device is a monitor, the body temperature and the blood oxygen saturation level can be used as characteristic values, if the body temperature is in a preset normal value range 34-43 and the blood oxygen saturation level is in a preset normal value range 60-110 according to the corresponding analysis result, the message protocol is correct, and if the body temperature analysis result is 50 or the blood oxygen saturation level is 130, the message protocol is incorrect, and the system needs to match other protocols from the protocol library continuously.

Furthermore, in practice, some specific indexes may have adjacent reasonable value space, and in order to more accurately identify whether the specific indexes are predicted, the analysis result of the position of the multi-frame data may be counted, and whether the position is the specific index may be further determined according to the statistical value. In general, the average value of the specific index parameter, the value ranges of 90% and 95% confidence intervals, and the like may be used to further identify the specific index with a reasonable value range close to the specific index.

Specifically, the system is preset with message protocols of a plurality of types of common devices, each message protocol specifies a data frame information format, parameters of specific positions (or specific offsets) of one or more data frames in data frames of the protocol corresponding to each device can be set as index parameters with specific meanings, and reasonable index ranges are set for the parameters. Thus, it is possible to attempt to analyze the data frame by using the offset, data length, etc. of the one or more index parameters (corresponding to the specific index) having the specific meaning with respect to the data frame header. Judging the legality of the read data according to the reasonable value space of the index parameter, and judging that the data frame is correctly analyzed if one or more index parameters can analyze the data in the reasonable value space; and if the data analyzed by any index parameter is not in the reasonable value space, judging that the data frame is not analyzed correctly. According to other frame information in the message protocol corresponding to the data frame information format which can correctly analyze the data frame information, the identity information of the equipment can be determined, and then the identity information of the current equipment is determined.

It should be noted that different devices may use the same index parameter in the same data format in some adjacent positions in their output data frames, and therefore, multiple index parameters need to be analyzed and determined simultaneously to distinguish between devices that may be confused. For some equipment, specific index parameters are set at specific positions different from other equipment data frames, and when the specific index parameters at the specific positions are analyzed, the specific index parameters at the specific positions are optimized, so that the accurate identification of the identity information of the specific equipment is easier to realize.

And S106, determining a message protocol corresponding to the target medical equipment according to the identity information.

In specific implementation, the message protocol corresponding to each target medical device is preset, and the message protocol corresponding to the target medical device can be determined according to the identity information of the target medical device. The message protocol may be used to indicate a specific type of message data of the medical device, for example, the message data may be body temperature, blood pressure, or heartbeat data, etc.

And S108, analyzing and restoring the message data through a message protocol corresponding to the target medical equipment to obtain original data corresponding to the message data.

After the identity information of the medical equipment is identified, data of the medical equipment is analyzed and restored according to the message protocol corresponding to the medical equipment, and therefore original data corresponding to the message data are obtained. After the original data is obtained, the original data can be pushed to other devices, or the original data can be edited and then transmitted to other devices.

The embodiment of the invention provides a medical equipment data processing method, which comprises the steps of firstly, obtaining message data in target medical equipment through a small data processing terminal in communication connection with the target medical equipment; then, the acquired message data is compared with a preset data protocol cluster, the identity information of the target medical equipment is identified, and a message protocol corresponding to the target medical equipment is determined; and then analyzing and restoring the message data through a message protocol corresponding to the target medical equipment to obtain original data corresponding to the message data. In the mode, the message data in the medical equipment is acquired through the small data processing terminal in communication connection with the medical equipment, compared with the mode of acquiring the medical equipment data by using a desktop computer, the mode can conveniently and quickly finish data acquisition and analysis, meanwhile, the mobile use scene of the medical equipment is fully considered, and the method is suitable for various network environments of hospitals.

Furthermore, the interface on the small data processing terminal is in communication connection with the medical equipment, so that the data acquisition condition is reduced, the system can be operated on the small data processing terminal through the compact and low-energy-consumption design, and the data transmission mode is expanded in multiple wireless modes.

The embodiment of the invention also provides another medical equipment data processing method, which is realized on the basis of the method of the embodiment; as shown in fig. 2, the method comprises the following specific steps:

step S202, acquiring message data in the target medical equipment through the small data processing terminal.

In specific implementation, the small data processing terminal may passively receive the message data sent by the target medical device, and may also actively acquire the message data in the target medical device. That is, the step S202 can be displayed in the following two ways:

in the first mode, the message data sent by the target medical equipment is received through the small data processing terminal.

And secondly, sending a data acquisition request to at least one medical device through the small data processing terminal so as to acquire the message data in the target medical device through the data acquisition request.

Specifically, after the medical equipment is connected with the small data terminal, the system monitors whether the medical equipment sends the message data or not by monitoring the data interface of the small data terminal, and if so, identifies the medical equipment sending the message data. If the message data sent by the medical equipment is not monitored, actively initiating inquiry information (equivalent to the data acquisition request) such as handshake and the like, and then analyzing a message protocol through the message data fed back by the medical equipment to quickly finish the identification of the medical equipment. The actively initiated handshake information has a port scanning function, and data of any port on the small data processing terminal can be covered.

And step S204, storing the acquired message data into a preset database according to a preset mode.

In a specific implementation, the database may be disposed on the small data processing terminal, or may be disposed on a remote server communicatively connected to the small data processing terminal.

Step S206, comparing the acquired message data with the message protocol in the preset data protocol cluster.

And S208, determining the identity information of the target medical equipment according to the comparison result.

And S210, analyzing and restoring the message data according to the message protocol corresponding to the target medical equipment in the comparison result to obtain original data corresponding to the message data.

In the specific implementation, the analysis and the reduction of the message data can be completed on a remote server or a small data terminal. When the analysis and the reduction of the message data need to be completed on the remote server, the small data terminal can transmit the message data to the remote server in real time through the WiFi, 4G or 5G communication mode through the network transmission function of the small data terminal, so that the remote server completes the analysis and the reduction processing of the message data.

Step S212, pushing the original data to a designated device or terminal in the form of short message, data table, text or picture.

During specific implementation, the small data processing terminal provides network networking, routing setting and wireless transmission functions, and various data can be pushed to designated equipment and terminals in the forms of short messages, data tables, texts, pictures and the like through WiFi, 4G or 5G communication modes according to actual requirements of users. On a given device or terminal, the user may receive information using specialized software or a general messaging platform.

In a specific implementation, the system executing the steps S202 to S212 can provide a data interface with a uniform format but various styles, and data with a uniform format, including data, documents, tables, pictures, and the like, can be acquired regardless of whether the user is a person or other system. The user can also select active query, passive push or system announcement and the like to acquire the medical device data.

In some embodiments, the system of the present invention is designed to be compact and operate on a small data processing terminal with low power consumption. The system designs a data protocol cluster and a matching strategy, realizes the quick identification and format matching of various medical equipment, can conveniently and quickly complete data acquisition and analysis wherever the medical equipment is used, and transmits data through communication modes such as WiFi, 4G and 5G by utilizing a small-sized data processing terminal, and the system also provides data service capability: relevant information is pushed to a workstation, a mobile phone, an intelligent bracelet and other equipment beside the hands of medical staff. Meanwhile, the invention integrates the communication technology and the computer processing technology and uniformly incorporates medical equipment with various forms into a system. By means of the data protocol clustering, medical equipment with different models and interface types can be covered.

In some embodiments, the system may reside the data parsing and restoring service on a remote server, the data acquisition terminal on a small data processing terminal, or all the services on a data terminal. When the system resides on a remote server, the system is divided into a front end and a back end, and the front end finishes data acquisition; the back end completes the transmission of the data of the medical equipment, so that the remote server completes the analysis and restoration of the data.

In some embodiments, in order to enhance the application effect of the medical device data, the small data processing terminal is bound with the medical device and the patient. Specifically, after the small data processing terminal is in communication connection with the target medical equipment, binding equipment information of the small data processing terminal with identity information of the target medical equipment, and storing binding time and binding information into a preset database; patient information of a patient monitored by the target medical equipment is acquired, and the patient information is stored in a database, so that the patient information, the binding time and the binding information are stored in a binding mode.

In specific implementation, the small data processing terminal can bind the medical device with the device number (equivalent to the device information), and after the small data processing terminal is connected with the medical device, 1 record is automatically written in the database, and the binding time, the terminal device number and the medical device number (equivalent to the identity information) are recorded. The medical equipment number can be self-defined, and the equipment number can also be a serial number which can uniquely identify the equipment, such as a factory number of the equipment or a network card address; the device number of the small data processing terminal can be customized, and can also be represented by a device delivery number, a wired network card, a wireless network card address, a 4G/5Gsim card number and the like. The patient Information may be acquired by interfacing with a HIS (Hospital Information System) System of a Hospital, or may be entered by a user, and includes a patient name, a sex, an age, an Identity Document (ID), a diagnosis, a department, a bed number, and the like. The obtained patient information is recorded into a binding record in the database. The mode can closely combine medical equipment, medical personnel and patients, and provides a data base for the integrated application of data.

In some embodiments, after the small data processing terminal establishes a communication connection with the target medical device, the small data processing terminal monitors the online time and/or the working state information of the target medical device, and sends the monitored online time and/or the working state information to the device management party, so that the device management party performs asset management, device purchasing, or device spare part storage. The asset management comprises equipment use efficiency analysis, service life management, maintenance records and the like.

The medical equipment data processing method adopts a data communication and processing technology, acquires medical equipment data and waveform information through a data interface, then carries out information reduction and display, and can send related information to a user in various forms. The original data generated by the method can be shared with other information systems, can serve for clinic and scientific research, and fully play the value of medical data.

Corresponding to the embodiment of the medical equipment data processing method, the embodiment of the invention provides a medical equipment data processing device, which is arranged on electronic equipment, wherein the electronic equipment is in communication connection with at least one piece of medical equipment through a small data processing terminal; as shown in fig. 3, the apparatus includes:

and the message acquisition module 30 is used for acquiring message data in the target medical equipment through the small data processing terminal.

The identity determining module 31 is configured to compare the acquired message data with all message protocols in the preset data protocol cluster, and determine identity information of the target medical device according to a comparison result; the data protocol cluster comprises a message protocol corresponding to each medical device in communication connection with the small data processing terminal and identity information of the medical device corresponding to each message protocol.

And the protocol determining module 32 is configured to determine a message protocol corresponding to the target medical device according to the identity information.

And the data reduction module 33 is configured to perform parsing and reduction processing on the message data through a message protocol corresponding to the target medical device, so as to obtain original data corresponding to the message data.

The medical equipment data processing device firstly obtains message data in target medical equipment through a small data processing terminal in communication connection with the target medical equipment; then, the acquired message data is compared with a preset data protocol cluster, the identity information of the target medical equipment is identified, and a message protocol corresponding to the target medical equipment is determined; and then analyzing and restoring the message data through a message protocol corresponding to the target medical equipment to obtain original data corresponding to the message data. In the mode, the message data in the medical equipment is acquired through the small data processing terminal in communication connection with the medical equipment, compared with the mode of acquiring the medical equipment data by using a desktop computer, the mode can conveniently and quickly finish data acquisition and analysis, meanwhile, the mobile use scene of the medical equipment is fully considered, and the method is suitable for various network environments of hospitals.

Specifically, the small data processing terminal establishes a communication connection with the target medical device through one of a USB interface, a serial interface, a network interface, a WiFi interface, a 4G interface, or a 5G interface.

In a specific implementation, if the I/O interface of the target medical device is a non-standard interface, the target medical device needs to be connected to an interface provided by the small data processing terminal through an external interface conversion line or interface conversion device, so as to repackage the message data acquired from the target medical device into the message data in the preset format through the small data processing terminal.

Further, the message obtaining module 30 is further configured to: receiving message data sent by target medical equipment through a small data processing terminal; or sending a data acquisition request to at least one medical device through the small data processing terminal so as to acquire the message data in the target medical device through the data acquisition request.

Specifically, the apparatus further includes a data storage module, configured to: and storing the acquired message data into a preset database according to a preset mode.

In a specific implementation, the apparatus further includes a data pushing module, configured to parse and restore the message data through a message protocol corresponding to the target medical device, so as to obtain original data corresponding to the message data, and then push the original data to a designated device or a terminal in the form of a short message, a data table, a text, or a picture.

Further, the device also comprises an information binding module, which is used for binding the device information of the small data processing terminal with the identity information of the target medical device after the small data processing terminal establishes communication connection with the target medical device, and storing the binding time and the binding information into a preset database; patient information of a patient monitored by the target medical equipment is acquired, and the patient information is saved in a database, so that the patient information, the binding time and the binding information are stored in a binding mode.

Further, the above device further includes an information monitoring module, configured to: after the small data processing terminal is in communication connection with the target medical equipment, monitoring the on-line time and/or working state information of the target medical equipment through the small data processing terminal, and sending the monitored on-line time and/or working state information to an equipment management party, so that the equipment management party performs asset management, equipment purchasing or equipment spare part storage.

The implementation principle and the generated technical effect of the medical equipment data processing device provided by the embodiment of the invention are the same as those of the medical equipment data processing method embodiment, and for the sake of brief description, the corresponding contents in the method embodiment can be referred to where the device embodiment is not mentioned.

An embodiment of the present invention further provides an electronic device, as shown in fig. 4, the electronic device includes a small data processing terminal 40 and a processor 41; for specific implementation, reference may be made to method embodiments, and details are not described herein.

The functions, if implemented in the form of software functional units and sold or used as a stand-alone product, 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.

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present invention, which are used for illustrating the technical solutions of the present invention and not for limiting the same, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: any person skilled in the art can modify or easily conceive the technical solutions described in the foregoing embodiments or equivalent substitutes for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not depart from the spirit and scope of the embodiments of the present invention, and they should be construed as being included therein. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The medical equipment data processing method is applied to electronic equipment, and the electronic equipment is in communication connection with at least one medical equipment through a small data processing terminal; the method comprises the following steps:

acquiring message data in the target medical equipment through the small data processing terminal;

comparing the acquired message data with all message protocols in a preset data protocol cluster, and determining the identity information of the target medical equipment according to the comparison result; the data protocol cluster comprises a message protocol corresponding to each medical device in communication connection with the small data processing terminal and identity information of the medical device corresponding to each message protocol;

identifying the identity information of the target medical equipment according to the acquired message data;

determining a message protocol corresponding to the target medical equipment according to the identity information;

and analyzing and restoring the message data through a message protocol corresponding to the target medical equipment to obtain original data corresponding to the message data.

2. The method of claim 1, wherein the small form factor data processing terminal establishes a communication connection with the target medical device through one of a USB interface, a serial interface, a network interface, a WiFi interface, a 4G interface, or a 5G interface.

3. The method according to claim 2, wherein if the I/O interface of the target medical device is a non-standard interface, the target medical device needs to be connected to an interface provided by the small data processing terminal through an external interface conversion line or an interface conversion device, so as to repackage the message data acquired from the target medical device into message data in a preset format through the small data processing terminal.

4. The method according to claim 1, wherein the step of obtaining the message data in the target medical device through the small data processing terminal comprises:

receiving message data sent by the target medical equipment through the small data processing terminal;

or sending a data acquisition request to the at least one medical device through the small data processing terminal, so as to acquire the message data in the target medical device through the data acquisition request.

5. The method according to claim 1 or 4, wherein after the step of obtaining, by the small data processing terminal, the message data in the target medical device, the method further comprises:

and storing the acquired message data into a preset database according to a preset mode.

6. The method according to claim 1, wherein after the step of analyzing and restoring the message data through the message protocol corresponding to the target medical device to obtain the original data corresponding to the message data, the method further comprises:

and pushing the original data to a designated device or a terminal in the form of short messages, data tables, texts or pictures.

7. The method of claim 1, further comprising:

after the small data processing terminal is in communication connection with the target medical equipment, binding equipment information of the small data processing terminal with identity information of the target medical equipment, and storing binding time and binding information into a preset database;

and acquiring patient information of a patient monitored by the target medical equipment, and storing the patient information into the database so as to store the patient information, the binding time and the binding information in a binding manner.

8. The method of claim 1, further comprising:

after the small data processing terminal is in communication connection with the target medical equipment, monitoring the online time and/or the working state information of the target medical equipment through the small data processing terminal, and sending the monitored online time and/or the working state information to an equipment management party, so that the equipment management party performs asset management, equipment purchasing or equipment spare part storage.

9. The medical equipment data processing device is characterized in that the device is arranged on electronic equipment, and the electronic equipment is in communication connection with at least one piece of medical equipment through a small data processing terminal; the device comprises:

the message acquisition module is used for acquiring message data in the target medical equipment through the small data processing terminal;

the identity determination module is used for comparing the acquired message data with all message protocols in a preset data protocol cluster and determining the identity information of the target medical equipment according to the comparison result; the data protocol cluster comprises a message protocol corresponding to each medical device in communication connection with the small data processing terminal and identity information of the medical device corresponding to each message protocol;

the protocol determining module is used for determining a message protocol corresponding to the target medical equipment according to the identity information;

and the data reduction module is used for analyzing and reducing the message data through a message protocol corresponding to the target medical equipment to obtain original data corresponding to the message data.

10. An electronic device, characterized in that the electronic device comprises a small data processing terminal and a processor; the processor is adapted to perform the steps of the data processing method of any of claims 1-8.

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