CN115277699A - Intelligent device management cloud service platform applied to medical institution - Google Patents

Abstract

The invention relates to an intelligent equipment management cloud service platform applied to a medical institution, which comprises: the system comprises an intelligent device service terminal, a cloud service terminal and a user monitoring management terminal. The intelligent equipment service terminal comprises a front-end service intelligent equipment module, a rear-end service intelligent equipment module and a necessary auxiliary hardware equipment module. The cloud server comprises a data conversion module and a data release module. The cloud service platform classifies and processes data. The invention has the following remarkable advantages: data summarization and analysis among a plurality of intelligent devices are realized, autonomous judgment and operation of the whole platform system are realized through a preset program, platform load is reduced, and working efficiency is improved.

Description

Intelligent device management cloud service platform applied to medical institution

Technical Field

The invention relates to the technical field of cloud platforms, in particular to an intelligent equipment management cloud service platform applied to medical institutions.

Background

The internet of things (internet of things) realizes interaction between a network and data by various information sensors and following various communication protocols so as to realize intelligent sensing, identification, monitoring and management of articles and processes. The intelligent hospital construction is enabled by the Internet of things technology, and refinement and intellectualization of hospital management are achieved. Therefore, a plurality of intelligent devices are applied to hospital institutions, but the existing intelligent devices are only connected with a platform server singly and complete tasks through instructions of users. The cloud service platform of different platforms, single equipment is adopted to multiple smart machine, causes that user manager needs to handle different equipment through a plurality of platforms, very big waste human resource. And interaction cannot be formed among the intelligent devices, so that the functions of the intelligent devices cannot be exerted to the maximum extent.

Disclosure of Invention

The invention aims to provide an intelligent equipment management cloud service platform applied to a medical institution.

In order to realize the purpose of the invention, the technical proposal is as follows:

an intelligent device management cloud service platform applied to a medical institution, comprising: the intelligent equipment service terminal is used for executing tasks and sending data receiving instructions; the cloud server is used for receiving data, storing data, selecting data types, transmitting data and analyzing data; the user monitoring management terminal comprises all levels of users and is used for checking data and sending instructions.

Furthermore, the intelligent equipment service terminal comprises a front-end service intelligent equipment module which is used for executing the self task of the equipment and sending data; the back-end service intelligent equipment module is used for executing equipment tasks, sending data and receiving instruction information of the cloud server; and the necessary auxiliary hardware equipment module is used for executing the equipment task, sending data and receiving instruction information of the cloud server side.

Further, the cloud server comprises a data conversion module and a data release module, wherein the data conversion module is used for receiving the data of the intelligent equipment service terminal and converting the data form; the data issuing module is used for storing data, issuing data, analyzing data, integrating data and forming a preliminary command.

Dividing data sent by the back-end service intelligent equipment module and the necessary auxiliary hardware equipment module into a fault class and a state class; dividing data sent by a front-end service intelligent equipment module into a fault class and a background class; and the cloud server side processes data in different states according to the data types.

Furthermore, the transmission mode between the intelligent equipment service terminal and the data conversion module is a publish-subscribe message processing mechanism and is carried out through an MQTT protocol.

Furthermore, a request-response processing mechanism is adopted between the user monitoring management terminal and the data publishing module.

The invention also provides a data operation method based on the intelligent equipment management cloud service platform applied to the medical institution, which comprises the following steps:

s1, an intelligent equipment service terminal sends data to a data conversion module, and the data conversion module judges the data type;

s2, processing data in different modes by a data publishing module according to preset data types;

s3, the data publishing module publishes data to the user monitoring management terminal;

s4, the user monitoring management terminal processes the data according to the category and feeds the data back to the data publishing module;

s5, the data publishing module sends the data to the data conversion module;

and S6, the data conversion module respectively sends task instructions according to the plurality of intelligent equipment service terminals related to the instructions.

Compared with the prior art, the invention has the remarkable advantages that:

1. the intelligent equipment management cloud service platform not only improves the working efficiency, but also realizes data summarization and analysis among a plurality of intelligent equipment through different functions among the modules through a data conversion module and a data release module arranged at a cloud service end, and realizes autonomous judgment and operation of the whole platform system through a preset program;

2. through different transmission modes between the intelligent equipment service terminal and the cloud service terminal, and between the cloud service terminal and the user monitoring and management terminal, the intelligent equipment service terminal only manages the release information, and the cloud service terminal only manages the arrival of corresponding subscription information, so that the intelligent equipment service terminal and the cloud service terminal are isolated in time and space, the loads of the two parties are greatly reduced, and meanwhile, the real-time transmission efficiency is improved through two different module functions of the cloud service terminal;

3. through data classification processing of the intelligent device service terminal, unnecessary information processing of the cloud service terminal is reduced, platform load is reduced, and working efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent device management cloud service platform of the present invention.

Fig. 2 is a detailed exploded view of the smart device service terminal of the present invention.

Fig. 3 is a schematic structural view of embodiment 1 of the present invention.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in the figure, the intelligent equipment management cloud service platform applied to the medical institution comprises: the intelligent equipment service terminal is used for executing tasks and sending data receiving instructions; the cloud server is used for receiving data, storing data, selecting data types, transmitting data and analyzing data; the user monitoring management terminal comprises all levels of users and is used for checking data and sending instructions.

Furthermore, the intelligent device service terminal in the intelligent device management cloud service platform comprises a front-end service intelligent device module, which is used for executing the self task of the device and sending data; the back-end service intelligent equipment module is used for executing equipment tasks, sending data and receiving instruction information of the cloud server; and the necessary auxiliary hardware equipment module is used for executing the equipment task, sending data and receiving instruction information of the cloud server side.

The cloud service end comprises a data conversion module and a data release module, wherein the data conversion module is used for receiving the data of the intelligent equipment service terminal, converting the data form and transmitting data value data release module; the data issuing module is used for storing data, issuing data, analyzing data, integrating data and forming a preliminary command.

Dividing data sent by the back-end service intelligent equipment module and the necessary auxiliary hardware equipment module into a fault class and a state class; dividing data sent by a front-end service intelligent equipment module into a fault class and a background class; and the cloud server side processes data in different states according to the data types.

Example 1

In this embodiment, the platform is mainly an intelligent device management cloud service platform established for hospitals, the intelligent device service terminal is various robots provided with sensors, radio frequency identification card readers and the like, such as a guide robot, a disinfection robot, a logistics robot jacking robot, an intelligent elevator and the like, and the devices can be connected to the internet through a 4G internet of things card.

The rear-end intelligent equipment service terminal module mainly comprises various robots which are used for spatially serving the inside of the hospital and specifically execute tasks in the hospital, and the robots comprise a disinfection robot, a logistics robot, a jacking robot and the like. The front-end service intelligent equipment module is mainly used for hospital entrance, such as a diagnosis guide robot, and is responsible for people flow data statistics and self outpatient diagnosis guide. The necessary auxiliary hardware equipment module is positioned in the hospital and mainly is intelligent equipment for providing help for the rear-end intelligent equipment service terminal module, such as an elevator, so that the robot can take the intelligent equipment to reach each floor to complete instructions issued by terminal users.

At a cloud service end, the data conversion module is a cluster architecture MQTT server, and the data publishing module is a cluster architecture platform server.

And the user monitoring management terminal is a user at each level. In a platform system constructed by the same hospital, a plurality of users can be provided, and medical care personnel can log in the mobile terminal equipment to enter the user monitoring management terminal through the identification codes. The identification code is unique no matter what kind of mobile terminal equipment the user enters, so that a user enters the platform uniquely. The mobile terminal device may be a smart phone, a portable terminal, a mobile terminal, a foldable terminal, a palmtop computer, a portable multimedia player terminal, a vehicle information system terminal, a navigation terminal, a personal computer, a notebook computer, a tablet personal computer, a tablet computer, an ultra notebook, a wearable device (including a smart watch, a smart glass, a head-mounted display device, etc.), a wireless broadband terminal, an interactive network television terminal, a smart television, a terminal for digital broadcasting, an Audio/Video navigation terminal, an Audio/Video (a/V) system, a flexible terminal, and a digital identification device.

In order to realize rapid and effective data processing, the platform classifies data sent by the intelligent equipment service terminal. The data sent by the front-end service intelligent equipment module are divided into a fault class and a background class, if background class data of the diagnosis guide robot are human flow statistical data, when a patient enters a hospital, after information is registered on the diagnosis guide robot, a specific diagnosis room where the patient needs to go can be recorded. The fault information is data for guiding the robot to diagnose that the robot has faults, such as paper jam inside the robot, abnormal work and the like.

The data sent by the back-end service intelligent equipment module and the necessary auxiliary hardware equipment module are divided into fault types and state types, for example, the state type information of the disinfection robot comprises the position of the disinfection robot, the liquid capacity of the internal disinfectant and the remaining unfinished instruction tasks; the logistics robot state information comprises the position of the logistics robot and the remaining unfinished instruction tasks. The fault information comprises self faults or actions needing manual assistance, such as adding disinfection stock solution and the like; the logistics robot fault information comprises logistics door unlocking information of an end user.

The transmission mode between the intelligent equipment service terminal and the data conversion module is a publish-subscribe message processing mechanism and is carried out through an MQTT protocol, so that the coupling degree between the intelligent equipment can be reduced, and the method is suitable for frequent data transmission in a hospital scene. The intelligent device can be connected to the Internet through a local area network or a Bluetooth transmission mode, but is connected to the Internet through a 4G Internet of things card, and the problem that network signals in partial areas of a hospital are not covered can be solved. And the intelligent device service terminal and the cloud service terminal are not communicated smoothly, for example, in an elevator.

The request-response processing mechanism is used between the user monitoring management terminal and the data publishing module, so that a certain programming language or an operating system is not limited, and the advantages of cross-language and cross-platform are naturally achieved. The simple characteristic of the system is easy to realize, so that the system is beneficial to a user to monitor and manage the reading of the terminal in various mobile terminals and process information.

The invention also provides a data processing method when the intelligent equipment manages the cloud service platform, which comprises the following steps:

s1, an intelligent equipment service terminal sends data to a data conversion module, and the data conversion module judges the data type;

s2, processing data in different modes by a data publishing module according to preset data types;

s3, the data publishing module publishes data to the user monitoring management terminal;

s4, the user monitoring management terminal processes the data according to the category and feeds the data back to the data publishing module;

s5, the data publishing module sends the data publishing module to the data conversion module;

and S6, the data conversion module respectively sends the task instructions according to the plurality of intelligent equipment service terminals related to the instructions.

Taking the killing robot a as an example, the following is specifically explained:

in the morning, a hospital outpatient service center starts pre-sale registration, a patient registers admission information through a diagnosis guide robot, the robot transmits the number of people entering a hospital and the number of people in a specific diagnosis area in real time, an MQTT server receives data sent by the robot, converts the data form, judges the data type, marks 1 type at the beginning of the data if the background type is detected, and sends the type to a platform server. The platform server obtains the type 1 information, and starts to store the people flow and the number of the personnel in each diagnosis area. When the business of the outpatient service center is finished in one day, the platform server acquires the number of the office workers in each floor office in one day. The platform server calculates the density of specific personnel in a public corridor, a registered payment hall and each department according to the information of the area of each floor of the hospital and the like stored in advance inside the platform server, and is provided with the sterilizing tasks of the sterilizing robots, such as the sterilizing frequency and the number of the sterilizing robots, according to the preset personnel density. And calculating a preliminary result, and sending the preliminary result to a user monitoring management terminal, specifically to a user with authority, and confirming that the result is fed back to the platform server without errors after the result is checked by the user. And the platform server relates to the robot and the elevator according to the corresponding command. And generating task data and sending the task data to the MQTT server. The MQTT server will convert the data and send it to each robot and elevator. And the robots and the elevators complete tasks according to the instructions.

In the task execution process, the robot sends the self state to the MQTT server in real time, the MQTT server receives, converts and judges the data type to be 2, and the data type is transmitted to the platform server. And the platform server sums up and stores the state information according to the number of each robot preset in the system.

When the robot sends 3 types of fault information, the MQTT server receives, converts and judges the data type to be 3, and data is preferentially transmitted to the platform server. And the platform server sends the self state information and the fault information of the robot to the user monitoring and managing terminal. After the user checks and receives the information, the user arrives at the position of the robot at the first time and processes the information. After the processing is finished, the platform is logged in, an instruction is sent to the platform server, if the maintenance is finished and the task is continued or the maintenance cannot be carried out temporarily, the task which is not finished is transferred to another robot. The platform server converts the instruction and sends the MQTT server to the robot.

The invention provides an intelligent equipment management cloud service platform applied to medical institutions, which comprises the following steps: the number of the intelligent equipment service terminals is multiple; the number of the user monitoring management terminals is multiple.

The Network of the present invention refers to a connection structure capable of exchanging information between nodes, such as a plurality of terminals and servers, and examples of the Network include an RF (radio frequency), a 3GPP (3 rd Generation Partnership Project) Network, a LET (Long Term Evolution) Network, a 5GPP (5 rd Generation Partnership Project) Network, a WIMAX (World interoperability for microwave Access) Network, an Internet (Internet), a LAN (Local Area Network), a Wireless LAN (Wireless Local Area Network), a WAN (Wide Area Network), a PAN (Personal Area Network), a Bluetooth (Bluetooth) Network, a Bluetooth (Bluetooth-field) Network, a DMB Network, a broadcast Network, and a DMB Network.

Claims (8)

1. An intelligent device management cloud service platform applied to medical institutions, which is characterized by comprising: the intelligent equipment service terminal is used for executing tasks and sending data receiving instructions; the cloud server is used for receiving data, storing data, selecting data types, transmitting data and analyzing data; the user monitoring management terminal comprises users at all levels and is used for checking data and sending instructions.

2. The intelligent device management cloud service platform applied to the medical institution as claimed in claim 1, wherein the intelligent device service terminal comprises a front-end service intelligent device module, which is used for executing the self task of the device and sending data; the back-end service intelligent equipment module is used for executing equipment tasks, sending data and receiving instruction information of the cloud server; and the necessary auxiliary hardware equipment module is used for executing equipment tasks, sending data and receiving instruction information of the cloud server.

3. The intelligent equipment management cloud service platform applied to the medical institutions, which is claimed in claim 1, is characterized in that the cloud service end comprises a data conversion module and a data publishing module, wherein the data conversion module is used for receiving intelligent equipment service terminal data and converting data forms; the data issuing module is used for storing data, issuing data, analyzing data, integrating data and forming a preliminary command.

4. The intelligent device management cloud service platform applied to the medical institution as claimed in claim 2, wherein the data sent by the backend service intelligent device module and the necessary auxiliary hardware device module are divided into a fault class and a state class; dividing data sent by a front-end service intelligent equipment module into a fault class and a background class; and the cloud server side performs data processing in different states according to the data types.

5. The intelligent device management cloud service platform applied to the medical institution as claimed in claim 3, wherein the transmission mode between the intelligent device service terminal and the data conversion module is a publish-subscribe message processing mechanism, and is performed through an MQTT protocol.

6. The intelligent device management cloud service platform applied to the medical institution as claimed in claim 3, wherein the user monitoring management terminal and the data publishing module are connected through a request-response processing mechanism.

7. The intelligent device management cloud service platform applied to the medical institution according to any one of the above items: the intelligent equipment service system is characterized in that a plurality of intelligent equipment service terminals are provided; the number of the user monitoring management terminals is multiple.

8. A data operation method based on an intelligent equipment management cloud service platform applied to a medical institution is characterized by comprising the following steps: the method comprises the following steps:

s1, an intelligent equipment service terminal sends data to a data conversion module, and the data conversion module judges the data type;

s2, processing data in different modes by a data publishing module according to preset data types;

s3, the data publishing module publishes data to the user monitoring management terminal;

s4, the user monitoring management terminal processes the data according to the category and feeds the data back to the data publishing module;

s5, the data publishing module sends the data to the data conversion module;

and S6, the data conversion module respectively sends task instructions according to the plurality of intelligent equipment service terminals related to the instructions.

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