CN114500638A - Medical data stream pushing system and method based on automatic cross-platform - Google Patents

Abstract

The invention discloses a medical data stream pushing system and method based on an automatic cross-platform, which comprises a data processing module, a service layer, a pushing server and terminal equipment, wherein the data processing module is used for processing request data, so that the uniform formatting of the package of the request data of a medical system is realized. Performing secondary packaging on the message through the service layer; and analyzing and encapsulating again through the push server, adapting to a specified push equipment protocol, and pushing the processed data to the terminal equipment for receiving, analyzing and displaying the message data. The invention supports the pushing of various equipment data streams, can carry out self-definition on the message by secondary packaging, can display the message in the equipment terminal according to the configured style after the message is agreed with the software rule of the equipment terminal, basically can meet the pushing condition of most business data messages through the definition of the multidimensional message rule, and is convenient for the access of a hospital business system and the management of the information.

Description

Medical data stream pushing system and method based on automatic cross-platform

Technical Field

The invention belongs to the field of medical informatization, and particularly relates to an automatic cross-platform-based data stream pushing system and method.

Background

In order to implement new medical improvement related work tasks, strengthen and continuously promote the formulation and implementation of health information standards, improve the cross-institution and cross-region health diagnosis and treatment information interactive sharing and the medical service collaboration level and the information benefit effect, the national health commission statistical information center carries out the national medical health information interconnection and intercommunication standardization maturity assessment work. The Internet of things technology can be used for realizing interconnection and intercommunication of patients, doctors, medical equipment, hospital management and medical information, completing closed loops of medical procedures and medical management, reducing medical errors, improving medical service efficiency, realizing refinement and intellectualization of operation management of hospitals, and is a development trend with both social benefits and economic benefits.

The message push system used by the current digital ward system adopts a single application mode of mqtt for pushing, and pushes information data stream in a release/subscription mode:

1.1 writing the message push code of the related service in the service code, and writing and configuring the push rule by the code.

1.2 when the push rule is satisfied, sending a request to the mqtt, and sending a message to the device subscribed to the theme message by the mqtt.

And 1.3, the device receives the message and displays the message.

The disadvantages are as follows:

2.1 the existing system only pushes the message data of a single system, can not provide support for a plurality of systems, can not change rapidly when pushing related rules are written in codes, and can not monitor the message pushing condition. The mainstream uses mqtt as a push protocol, but needs to be developed again when an unsupported device is encountered, and the support of cross-platform push is poor.

2.2 the current message data only contains service related information, and cannot be displayed in a self-defined mode on equipment, the mode completely depends on the design of equipment terminal software is displayed, and the background cannot be configured and the like.

In order to get through each software and hardware manufacturer system, ensure the interconnection and intercommunication of hardware equipment data and each information system service data, and create a software and hardware integrated integral solution which is not limited by time and space to obtain information. On the aspect of construction tasks, namely on the basis of a medical information platform/hospital information platform and an internet of things platform, a service system provides a data interface, the internet of things provides unified UI (user interface) display of hardware equipment and software, and a unified information publishing management platform is constructed together, so that the unified management of payment, number source data, public resources, face recognition, a knowledge base and hardware is achieved.

Disclosure of Invention

The method aims to solve the problems that hospital information is pushed to various terminals and displayed and is limited by the fact that equipment of various manufacturers does not have a unified entrance for unified management, protocols supported by the equipment need to be customized and developed, styles of displayed messages cannot be customized, and message contents are displayed in a self-adaptive mode according to different equipment sizes, equipment types, equipment installation positions, message types and the like. The invention provides an automated cross-platform based medical data stream pushing system and method.

The unified information publishing management platform publishes information through the management of the equipment and the communication protocol adapter corresponding to the data flow equipment, and the equipment terminal software acquires the information through the modes of subscribing information or long connection and the like and displays the information on the terminal equipment according to the rule.

An automatic cross-platform based medical data stream pushing system comprises a data processing module, a business layer, a pushing server and terminal equipment.

The data processing module adopts a Wrapper/Mediator to extract and package data requested by the hospital service system, so that the package of the data requested by the medical system realizes unified formatting.

The service layer comprises a data pushing module, a storage module, a task scheduling module and a medical information platform (HIS/RIS/LIS/PACS) and is used for receiving and processing request data sent by the medical system.

The data pushing module packages the medical system request data for the second time according to the pushing rule configured in the background, and the message data comprises the following three parts: 1. enhancing data content, namely determining whether to pull required data from the medical information platform to enhance original message data according to configured rules; 2. the data pushing rule body comprises related data of a message data pushing mode method; 3. and the data display style comprises a data display mode and style configuration information at the terminal.

The push rules comprise appointed time push, immediate push, delay push, message quantity accumulation push, appointed equipment category push, appointed equipment group push and trigger condition push.

The storage module is used for pushing records of data, configuring data pushing rules and storing data persistence of messages.

The task scheduling module is used for automatically executing the initiation of the pushing task at a given time point, a given time interval or a given execution number in the pushing rule.

The medical information platform (HIS/RIS/LIS/PACS) is used for providing medical information and medical care data related to the patient.

The number of the push servers is multiple, load balancing is carried out by using a rotation method and a weighting method through Nginx, and the requests are effectively dropped on each push server to realize network load balancing.

The push server comprises a communication protocol adapter and a message distribution module.

The communication protocol adapter performs data analysis and data repackaging on the request data received by the push server and provides MQTT, DDS, AMQP, XMPP, JMS, REST and CoAP Internet of things protocol support.

And the message distribution module pushes the processed message data to the terminal equipment through an Internet of things protocol provided by the communication protocol adapter.

The terminal equipment is internally provided with equipment terminal software which comprises a data analysis module and a display module. The data analysis module analyzes the received message data according to preset unified style display and data structure rules, and the display module is used for visually displaying the message data.

Furthermore, the medical data stream pushing system based on the automation cross-platform further comprises a message monitoring module, wherein the message monitoring module is used for acquiring service state and performance monitoring information and storing the information by using a storage module. And displaying the service state and the performance monitoring information through the terminal equipment.

An automated cross-platform based medical data stream pushing method comprises the following steps:

step 1, the request data is processed through a data processing module, so that the package of the request data of the medical system realizes unified formatting.

And 2, the system acquires background configuration information according to the data type of the request data, acquires related data from the medical information platform according to the configuration to enhance the data, adds a pushing rule and a display style configuration, persistently stores the secondarily packaged message data through a storage module, and executes a task according to the rule by a task scheduling module.

And 3, realizing load balance by adopting a rotation method and a weighting method through Nginx, and enabling the message to fall on each push server.

And 4, analyzing and re-encapsulating the message data through a communication protocol adapter on the push server, and adapting to the appointed push equipment protocol.

And 5, the message distribution module pushes the processed data to the terminal equipment through the Internet of things protocol provided by the communication protocol adapter.

And 6, the terminal equipment receives, analyzes and displays the message data through the installed equipment terminal software.

Analyzing the received message data according to a preset unified style display and data structure rule by a data analysis module of the equipment terminal software, and then visually displaying the message data by a display module of the equipment terminal software.

The invention has the following beneficial effects:

1. supporting multiple device data stream push

The protocol adapter supports mainstream Internet of things communication protocols such as MQTT, DDS, AMQP, XMPP, JMS, REST, CoAP and the like, can push data streams to different devices by using the protocols supported by the devices, greatly improves the adaptation efficiency of the devices of different manufacturers, gets through systems of various software and hardware manufacturers, and ensures the interconnection and intercommunication of hardware device data and service data of various information systems.

2. Customization of messages

The message can be subjected to secondary packaging for self-definition, and can be displayed according to a configured style at the terminal equipment after being agreed with the rule of the equipment terminal software, and customized development of each different piece of equipment is not required.

3. Unified information publishing portal

Through the multi-dimensional message rule definition, the pushing condition of most service data messages can be basically met, and the access of a hospital service system and the management of information are facilitated.

Drawings

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

FIG. 2 is a system framework diagram according to an embodiment of the present invention.

Detailed Description

The method of the invention is further described below with reference to the accompanying drawings and examples.

1. And manually or programmatically sending a data push request by the service access platform.

2. The business layer realizes the display based on the pushing business form and configures the pushing rules of different data types, such as the timed task pushing, the interface pushing, the message type definition and the like of the pushing. The package of the request data realizes the data processing of uniform formatting and convenient pushing. And storing, namely, relying on message data statistics and storing offline message information. Task scheduling: the timed task is based on a given point in time, a given time interval or a given number of executions to automatically execute the task.

3. When a plurality of push servers are owned, nginx can be used for carrying out load balancing by adopting a rotation method and a weighting method, and requests can be effectively dropped on each push server to realize network load balancing.

4. The push server receives the message push request, then performs data analysis, performs message distribution and data repackaging, performs data push according to a protocol supported or configured by the target device through the protocol adapter, mainly uses mqtt to perform data stream push, and selects the protocol depending on the use of the service scene.

5. The terminal acquires the pushed message through subscribing the message or long connection and the like, and analyzes and displays the message.

As shown in fig. 1, an automated cross-platform based medical data stream pushing system includes a data processing module, a service layer, a pushing server and a terminal device.

The data processing module adopts a Wrapper/Mediator to extract and package data requested by a hospital service system, so that the package of the data requested by the medical system realizes unified formatting.

The service layer comprises a data pushing module, a storage module, a task scheduling module and a medical information platform (HIS/RIS/LIS/PACS) and is used for receiving request data sent by the medical system.

The data pushing module packages the medical system request data for the second time according to the pushing rule configured in the background, and the message data comprises the following three parts: 1. enhancing data content, namely determining whether to pull required data from the medical information platform to enhance original message data according to configured rules; 2. the data pushing rule body comprises related data of a message data pushing mode method; 3. and the data display style comprises a data display mode and style configuration information at the terminal.

The push rules comprise appointed time push, immediate push, delay push, message quantity accumulation push, appointed equipment category push, appointed equipment group push and trigger condition push.

The storage module is used for pushing records of data, configuring data pushing rules and storing data persistence of messages.

The task scheduling module is used for automatically executing the initiation of the push task at a given time point, a given time interval or a given execution number in the push rule.

The medical information platform (HIS/RIS/LIS/PACS) is used for providing medical information and medical care data related to the patient.

The number of the push servers is multiple, load balancing is carried out by using a rotation method and a weighting method through Nginx, and the requests are effectively dropped on each push server to realize network load balancing.

The push server comprises a communication protocol adapter and a message distribution module.

The communication protocol adapter performs data analysis and data repackaging on the request data received by the push server and provides MQTT, DDS, AMQP, XMPP, JMS, REST and CoAP Internet of things protocol support.

And the message distribution module pushes the processed message data to the terminal equipment through an Internet of things protocol provided by the communication protocol adapter.

The terminal equipment is internally provided with integrated matching system message display rules and message data acquisition equipment terminal software, and the equipment terminal software comprises a data analysis module and a display module. The data analysis module analyzes the received message data according to preset unified style display and data structure rules, and the display module is used for visually displaying the message data.

Further, the medical data stream pushing system based on the automated cross-platform system further comprises a message monitoring module, and the message monitoring module is used for acquiring service state and performance monitoring information and storing the information by using a storage module. And displaying the service state and the performance monitoring information through the terminal equipment.

An automated cross-platform based medical data stream pushing method comprises the following steps:

step 1, the request data is processed through a data processing module, so that the package of the request data of the medical system realizes unified formatting.

And 2, the system acquires background configuration information according to the data type of the request data, acquires related data from the medical information platform according to the configuration to enhance the data, adds a pushing rule and a display style configuration, persistently stores the secondarily packaged message data through a storage module, and executes a task according to the rule by a task scheduling module.

And 3, realizing load balance by adopting a rotation method and a weighting method through Nginx, and enabling the message to fall on each push server.

And 4, analyzing and re-encapsulating the message data through a communication protocol adapter on the push server, and adapting to the appointed push equipment protocol.

And 5, the message distribution module pushes the processed data to the terminal equipment through the Internet of things protocol provided by the communication protocol adapter.

And 6, the terminal equipment receives, analyzes and displays the message data through the installed equipment terminal software.

Analyzing the received message data according to a preset unified style display and data structure rule by a data analysis module of the equipment terminal software, and then visually displaying the message data by a display module of the equipment terminal software.

The method of the present invention is further described below by taking a queuing and calling system as an example.

FIG. 2 is a system framework diagram according to an embodiment of the present invention.

1. And the information issuing system management page carries out pushing rule configuration of the number calling information.

2. The hospital queuing and calling system is accessed to the information issuing system to send the number calling data according to the system agreed format.

3. The information issuing system receives and analyzes the number calling data, the data processing module obtains relevant medical data from hospital public information according to configuration rules to perform secondary packaging enhancement on the data, the storage module persists information records, and the task scheduling sends the data to the pushing cluster when the conditions of the pushing execution rules are met. The pushed record information can be viewed through the monitoring service on the management interface.

Nginx balances the data message body in each push server by adopting a load balancing strategy of a rotation method and a weighting method.

5. And the push server analyzes the message body after receiving the message body, analyzes the communication protocol used by message publishing through the protocol adapter, and sub-packages the data message again, for example, if the rule uses an MQTT protocol, the data message is packaged into an MQTT message body and published to the MQTT service through a theme, and the MQTT distributes the message to a comprehensive number calling display screen of the subscribed terminal equipment.

6. And the equipment terminal software installed on the comprehensive number calling display screen receives data through the subscription message, analyzes the data according to a uniform rule and then displays the number calling information on the equipment.

Claims (5)

1. A medical data stream pushing system based on automation cross-platform is characterized by comprising a data processing module, a service layer, a pushing server and a terminal device;

the data processing module adopts a Wrapper/media to extract and package data requested by a hospital service system, so that the package of the data requested by the medical system realizes unified formatting;

the service layer comprises a data pushing module, a storage module, a task scheduling module and a medical information platform and is used for receiving and processing request data sent by the medical system;

the data pushing module packages the medical system request data for the second time according to the pushing rule configured in the background, and the message data comprises the following three parts: 1. enhancing data content, namely determining whether to pull required data from the medical information platform to enhance original message data according to configured rules; 2. the data pushing rule body comprises related data of a message data pushing mode method; 3. the data display style comprises a data display mode and style configuration information;

the storage module is used for pushing records of data, configuring data pushing rules and persistently storing data of messages;

the task scheduling module is used for automatically executing the initiation of a push task at a given time point, a given time interval or a given execution frequency in the push rule;

the medical information platform is used for providing medical information and medical care data related to the patient;

the number of the push servers is multiple, load balancing is carried out by using a rotation method and a weighting method through Nginx, and the requests are effectively dropped on each push server to realize network load balancing;

the terminal equipment is internally provided with equipment terminal software, and the equipment terminal software comprises a data analysis module and a display module; the data analysis module analyzes the received message data according to preset unified style display and data structure rules, and the display module is used for visually displaying the message data.

2. The automated cross-platform based medical data stream pushing system of claim 1, wherein the push server comprises a communication protocol adapter and a message distribution module;

the communication protocol adapter performs data analysis and data repackaging on the request data received by the push server and provides MQTT, DDS, AMQP, XMPP, JMS, REST and CoAP Internet of things protocol support;

and the message distribution module pushes the processed message data to the terminal equipment through an Internet of things protocol provided by the communication protocol adapter.

3. The automated cross-platform based medical data stream pushing system of claim 2, wherein the pushing rules include time-specified pushing, immediate pushing, delayed pushing, cumulative message number pushing, device class-specified pushing, device group-specified pushing, and trigger condition pushing.

4. The automated cross-platform based medical data stream pushing system according to claim 1, 2 or 3, further comprising a message monitoring module for obtaining service status and performance monitoring information, and storing the service status and performance monitoring information by using a storage module; and displaying the service state and the performance monitoring information through the terminal equipment.

5. An automated cross-platform based medical data stream pushing method is characterized by comprising the following steps:

step 1, processing the request data through a data processing module, so that the package of the request data of the medical system realizes unified formatting;

step 2, the system acquires background configuration information according to the data type of the request data, acquires related data from the medical information platform according to the configuration to enhance the data, adds a pushing rule and a display style configuration, persistently stores the secondarily packaged message data through a storage module, and executes a task according to the rule by a task scheduling module;

step 3, load balancing is achieved through a rotation method and a weighting method through Nginx, and messages fall on each push server;

step 4, the message data is analyzed and encapsulated again through a communication protocol adapter on the push server, and the protocol of the appointed push equipment is adapted;

step 5, the message distribution module pushes the processed data to the terminal equipment through the Internet of things protocol provided by the communication protocol adapter;

step 6, the terminal equipment receives, analyzes and displays the message data through the installed equipment terminal software;

analyzing the received message data according to a preset unified style display and data structure rule by a data analysis module of the equipment terminal software, and then visually displaying the message data by a display module of the equipment terminal software.

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