CN110347694B - Equipment monitoring method, device and system based on Internet of things - Google Patents

Abstract

The invention provides an equipment monitoring method, device and system based on the Internet of things, comprising the following steps: receiving an operation state message of monitored equipment sent by Internet of things equipment, and carrying out validity check on the operation state message to judge whether the operation state message meets a preset service rule or not; if the running state message conforms to the preset service rule, performing authentication on the running state message according to the analysis result so as to judge whether the equipment type of the monitored equipment is the registered equipment type; if the equipment type is the registered equipment type, splitting the running state message according to a preset splitting rule to obtain message data; performing logic processing on the message data according to the message type of the running state message, and updating service data in a database according to a logic processing result; and updating the display page of the display terminal according to the change of the service data in the database.

Description

Equipment monitoring method, device and system based on Internet of things

Technical Field

The invention relates to the field of Internet of things, in particular to an equipment monitoring method, device and system based on the Internet of things.

Background

The loan renting is also called financial renting or financial renting, and according to the selection of a lessee on a goods supplier and a renting target object, the lessee purchases the renting target object from the goods supplier and then rents the renting target object for the lessee to use. The mortgage object of the financing lease service is mostly large equipment commodity, the equipment is expensive, the equipment deployment is remote, the manual on-site equipment inspection is not facilitated, how to better monitor and track the use state of the equipment and carry out efficient management is realized, the service risk is reduced, the resource allocation is reasonably carried out, and the problem which needs to be solved urgently by the financing lease service is solved.

Disclosure of Invention

The invention provides an equipment monitoring method, device and system based on the Internet of things, which realize physical monitoring of rental assets by collecting, counting and analyzing operation data of the rental assets.

The invention provides an equipment monitoring method based on the Internet of things, which comprises the following steps:

receiving an operation state message of monitored equipment sent by Internet of things equipment, and carrying out validity check on the operation state message to judge whether the operation state message meets a preset service rule or not;

if the running state message conforms to the preset service rule, performing authentication on the running state message according to the analysis result so as to judge whether the equipment type of the monitored equipment is the registered equipment type;

if the equipment type is the registered equipment type, splitting the running state message according to a preset splitting rule to obtain message data;

performing logic processing on the message data according to the message type of the running state message, and updating service data in a database according to a logic processing result;

and updating the display page of the display terminal according to the change of the service data in the database.

In an embodiment, after obtaining the message data, the method further includes:

and carrying out structural judgment on the message data in the running state message so as to judge whether the message data is structural data or unstructured data.

In an embodiment, performing logic processing on the message data according to the message type of the running state message, and updating the service data in the database according to the logic processing result includes:

analyzing the running state message to obtain the message type of the running state message, wherein the message type comprises a GPS positioning message and an equipment state message;

when the message type is a GPS positioning message, storing the message data in a time sequence database;

and when the message type is the equipment state message, updating the relational database by using the message data.

In an embodiment, when the message type of the operation status message is an alarm message, an alarm event including the message data is generated.

In one embodiment, the internet of things device includes: sensors, object controllers, and edge gateways.

On the other hand, an embodiment of the present invention further provides an apparatus for monitoring devices based on the internet of things, where the apparatus includes:

the legality checking unit is used for receiving an operation state message of the monitored equipment sent by the Internet of things equipment and checking the legality of the operation state message to judge whether the operation state message meets a preset service rule or not;

the authentication unit is used for authenticating the running state message according to the analysis result when the running state message accords with the preset service rule so as to judge whether the equipment type of the monitored equipment is the registered equipment type;

the message splitting unit is used for splitting the running state message according to a preset splitting rule when the device type is the registered device type to obtain message data;

the logic processing unit is used for carrying out logic processing on the message data according to the message type of the running state message and updating the service data in the database according to the logic processing result;

and the data updating unit is used for updating the display page of the display terminal according to the change of the service data in the database.

In one embodiment, the apparatus further comprises: and the structural judgment unit is used for performing structural judgment on the message data in the running state message after the message data is acquired so as to judge whether the message data is structural data or unstructured data.

In an embodiment, the logic processing unit is specifically configured to: analyzing the running state message to obtain the message type of the running state message, wherein the message type comprises a GPS positioning message and an equipment state message; when the message type is a GPS positioning message, storing the message data in a time sequence database; and when the message type is the equipment state message, updating the relational database by using the message data.

In one embodiment, the logical processing unit is further configured to: and when the message type of the running state message is an alarm message, generating an alarm event containing the message data.

In one embodiment, the internet of things device includes: sensors, object controllers, and edge gateways.

On the other hand, the embodiment of the invention also provides an equipment monitoring system based on the internet of things, and the system comprises: the system comprises at least one piece of Internet of things equipment, one piece of equipment monitoring device based on the Internet of things and at least one display terminal;

the Internet of things equipment is in communication with the equipment monitoring device in a wired and/or wireless mode and is used for acquiring multi-dimensional information of monitored equipment and sending the acquired information to the equipment monitoring device in an equipment running state message mode;

the equipment monitoring device receives an operation state message of monitored equipment sent by the Internet of things equipment, and carries out validity check on the operation state message to judge whether the operation state message meets a preset service rule or not; if the running state message conforms to the preset service rule, performing authentication on the running state message according to the analysis result so as to judge whether the equipment type of the monitored equipment is the registered equipment type; if the equipment type is the registered equipment type, splitting the running state message according to a preset splitting rule to obtain message data; performing logic processing on the message data according to the message type of the running state message, and updating service data in a database according to a logic processing result; updating a display page of the display terminal according to the change of the service data in the database;

and the display terminal is used for displaying the running state information of the monitored equipment according to the service data updated by the equipment monitoring device.

The equipment monitoring method and system based on the Internet of things provided by the invention fully utilize the access capability, equipment management capability and service output capability of the platform equipment of the Internet of things by combining the Internet of things technology, and realize the all-round monitoring of the monitored equipment by combining the map positioning technology and the visualization technology. The physical distribution of the monitored equipment is visually displayed through map service, the running state of the monitored equipment is monitored in real time through collecting the running indexes of the monitored equipment, and remote management of the monitored equipment is realized. Secondly, by utilizing the technical scheme of the invention, the operation efficiency analysis of the monitored equipment is realized, the operation efficiency of the equipment is analyzed from multiple dimensions and is displayed through a visual chart, the operation efficiency of the equipment is found in time, and reasonable resource allocation is carried out. In addition, the technical scheme of the invention can also realize alarm monitoring, provide abnormal alarm of the operation state of the monitored equipment and abnormal alarm of project operation, and improve the risk management level of the monitored equipment.

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, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flow chart of an apparatus monitoring method based on the internet of things according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an apparatus monitoring device based on the internet of things according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an internet of things-based device monitoring system according to an embodiment of the present invention;

fig. 4 is a structural diagram of an internet of things-based device monitoring system according to another embodiment of the present invention;

FIG. 5 is a block diagram of a front end communication server in the backend server in the embodiment shown in FIG. 4;

FIG. 6 is a block diagram of a service processing server in the backend server in the embodiment shown in FIG. 4;

FIG. 7 is a block diagram of a WEB server in the backend server in the embodiment shown in FIG. 4;

fig. 8 is a flowchart illustrating a process of the backend server when the device monitoring system of fig. 4 is used for device monitoring.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Fig. 1 is a schematic flow chart of an apparatus monitoring method based on the internet of things according to an embodiment of the present invention. As shown in fig. 1, the method mainly comprises the following steps:

step S11, receiving an operation status message of the monitored device sent by the internet of things device, and performing validity check on the operation status message to determine whether the operation status message meets a preset service rule.

And step S12, if the running state message conforms to the preset service rule, authenticating the running state message according to the analyzed result to judge whether the equipment type of the monitored equipment is the registered equipment type.

And step S13, if the device type is the registered device type, splitting the running state message according to a preset splitting rule to obtain message data.

And step S14, performing logic processing on the message data according to the message type of the running state message, and updating the service data in the database according to the logic processing result.

And step S15, updating the display page of the display terminal according to the change of the service data in the database.

According to the equipment monitoring method and system based on the Internet of things, the position and running state information of equipment is acquired through data acquisition equipment such as an object sensor, an object controller and an edge gateway by using a new Internet of things technology, and the acquired information is uploaded to the cloud. The operation data of the equipment is analyzed at the cloud end through the operation state of the monitoring equipment, remote management of the monitored equipment is realized by applying technologies such as map positioning, visualization and the like, and the operation efficiency of the monitored equipment can be displayed by utilizing a chart. The invention can be applied to the field of leased objects and provides remote monitoring on the position and the state of the leased object.

Generally, after an operating state message is split to obtain detailed message data therein, structural judgment is performed on the message data in the operating state message to judge whether the message data is structured data or unstructured data, if the message data is structured data, the message data is stored in a structured data storage unit in a database, and if the message data is unstructured data, the message data is stored in an unstructured data storage unit in the database for subsequent calling.

In an embodiment, when the operation status message is logically processed in step S14, the operation status message is generally analyzed to obtain the message type thereof, where the message type includes a GPS positioning message and an equipment status message. When the message type is a GPS positioning message, storing the message data in a time sequence database; and when the message type is the equipment state message, updating the relational database by using the message data.

In another embodiment, if the message type of the operation status message is an alarm message, an alarm event containing the message data is generated, and related service processing personnel are notified.

If the operation status message received in step S11 is neither a GPA positioning message nor a device status message or an alarm message, it is determined that the message is abnormal, and the message is discarded.

In an embodiment, the internet of things device includes: sensors, object controllers, and edge gateways.

Based on the same inventive concept as the method for monitoring the device based on the internet of things shown in fig. 1, the embodiment of the present application further provides a device monitoring device based on the internet of things, as described in the following embodiments. As the principle of the device for solving the problem is similar to that of the device monitoring method based on the internet of things in fig. 1, the implementation of the device can refer to the implementation of the device monitoring method based on the internet of things in fig. 1, and repeated details are omitted.

In another embodiment, the present invention further provides an internet-of-things-based device monitoring apparatus, whose structure is shown in fig. 2, and the apparatus includes: a validity checking unit 10, an authentication unit 20, a message splitting unit 30, a logic processing unit 40 and a data updating unit 50.

The validity checking unit 10 is configured to receive an operation state message of a monitored device sent by an internet of things device, and perform validity checking on the operation state message to determine whether the operation state message meets a preset service rule; the authentication unit 20 is configured to authenticate the running status packet according to the analysis result when the running status packet conforms to the preset service rule, so as to determine whether the device type of the monitored device is a registered device type; the message splitting unit 30 is configured to split the running state message according to a preset splitting rule when the device type is the registered device type, and obtain message data; the logic processing unit 40 is configured to perform logic processing on the message data according to the message type of the running state message, and update service data in the database according to a logic processing result; the data updating unit 50 is configured to update the display page of the display terminal according to the change of the service data in the database.

In an embodiment, the apparatus further includes a structural determination unit 60, and after the message splitting unit 30 obtains the message data, the structural determination unit 60 is configured to perform structural determination on the message data in the running state message, so as to determine whether the message data is structured data or unstructured data.

In an embodiment, the logic processing unit 40 is specifically configured to: analyzing the running state message to obtain the message type of the running state message, wherein the message type comprises a GPS positioning message and an equipment state message; when the message type is a GPS positioning message, storing the message data in a time sequence database; and when the message type is the equipment state message, updating the relational database by using the message data.

In an embodiment, the logic processing unit 40 is further configured to: and when the message type of the running state message is an alarm message, generating an alarm event containing the message data.

In an embodiment, the internet of things device includes: sensors, object controllers, and edge gateways.

An embodiment of the present invention further provides an internet-of-things-based device monitoring system, a structure of which is shown in fig. 3, and the system includes: the system comprises at least one piece of equipment of the internet of things, an equipment monitoring device based on the internet of things as shown in figure 2 and at least one display terminal.

The Internet of things equipment is in wired and/or wireless communication with the equipment monitoring device and is used for acquiring multi-dimensional information of the monitored equipment and sending the acquired information to the equipment monitoring device in the form of equipment running state messages.

The method comprises the steps that an equipment monitoring device receives an operation state message of monitored equipment sent by the Internet of things equipment, and carries out validity check on the operation state message to judge whether the operation state message meets a preset service rule or not; if the running state message conforms to the preset service rule, performing authentication on the running state message according to the analysis result so as to judge whether the equipment type of the monitored equipment is the registered equipment type; if the equipment type is the registered equipment type, splitting the running state message according to a preset splitting rule to obtain message data; performing logic processing on the message data according to the message type of the running state message, and updating service data in a database according to a logic processing result; and updating the display page of the display terminal according to the change of the service data in the database.

And the display terminal is used for displaying the running state information of the monitored equipment according to the service data updated by the equipment monitoring device.

The equipment monitoring method and system based on the Internet of things provided by the invention fully utilize the access capability, equipment management capability and service output capability of the platform equipment of the Internet of things by combining the Internet of things technology, and realize the all-round monitoring of the monitored equipment by combining the map positioning technology and the visualization technology. The physical distribution of the monitored equipment is visually displayed through map service, the running state of the monitored equipment is monitored in real time through collecting the running indexes of the monitored equipment, and remote management of the monitored equipment is realized. Secondly, by utilizing the technical scheme of the invention, the operation efficiency analysis of the monitored equipment is realized, the operation efficiency of the equipment is analyzed from multiple dimensions and is displayed through a visual chart, the operation efficiency of the equipment is found in time, and reasonable resource allocation is carried out. In addition, the technical scheme of the invention can also realize alarm monitoring, provide abnormal alarm of the operation state of the monitored equipment and abnormal alarm of project operation, and improve the risk management level of the monitored equipment.

For more clearly explaining the technical solution provided by the present invention, the present invention provides another embodiment of an equipment monitoring system based on the internet of things, and the structure of the embodiment is shown in fig. 4. Various internet of things devices 101 (such as an object sensor, an edge gateway and the like) are deployed at an intelligent device terminal to be monitored and used for collecting various data, the data are uploaded to a device monitoring server 103 through a network 102 (a wired network or a wireless network), and the device monitoring server 103 receives the data, processes the data accordingly and displays the data to business personnel through a display terminal 104. The functions of each part are as follows:

the internet of things device 101 is used for collecting information of multiple dimensions of the monitored device, for example, collecting information of wind speed, power generation amount, longitude and latitude of a fan and the like of the fan device.

The network 102 is configured to transmit information of the monitored device collected by the internet of things device 101 to the device monitoring server 103, and includes a wired network and a wireless network.

The device monitoring server 103 is configured to receive various data messages transmitted by the internet of things device 101 through the network 102, and process and analyze the data messages according to logic rules and service requirements. The device monitoring server 103 is mainly composed of a front-end communication server, a business processing server, a WEB server, and a database application service area. The database application server comprises a time sequence database and a relational database, wherein the time sequence database is used for storing GPS positioning data, and the relational database is used for storing equipment data, statistical data and the like.

The display terminal 104 is used for providing visual analysis results of multiple dimensions for business personnel, and facilitating the business personnel to check the state, the geographical distribution, the equipment operation statistical data and the like of the monitored equipment in real time. In particular implementations, the display terminal 104 includes, but is not limited to, a desktop computer, a notebook, a tablet, a smart phone, and the like.

Fig. 5 is a block diagram of a front-end communication server in the backend server in the embodiment shown in fig. 4. The front-end communication server is used for communicating with the front-end device, receiving data messages, performing analysis and verification on the messages, performing protocol conversion, forwarding messages and the like, and mainly comprises a data receiving unit 201, a protocol conversion unit 202, a first message communication unit 203 and a first database connection unit 204.

The data receiving unit 201 is configured to receive device acquisition information transmitted through the internet and message data sent by a service processing server, perform pre-analysis on the received data, and perform validity check, device type verification, device authentication, and the like on a result of the pre-analysis.

The protocol conversion unit 202 is configured to perform data analysis on the received message data according to the splitting rule, determine that the data is GPS positioning data, or device alarm data, or device operation message data, and perform corresponding conversion on the data according to the data type, and finally store the split data through the database connection unit 204.

The first message communication unit 203 is configured to repackage the data obtained by splitting the packet according to the service assembly rule, and send the repackaged data to the service processing server or the front-end device through the message middleware.

The first database connection unit 204 is configured to communicate with a database application server, obtain front-end device information, obtain message type information, store unstructured data, and the like.

Fig. 6 is a block diagram of a service processing server in the backend server in the embodiment shown in fig. 4. The service processing server is configured to receive a service packet, process a service flow, store service data, and the like, and as shown in fig. 6, the service processing server mainly includes a packet receiving unit 301, a logic processing unit 302, a second message communication unit 303, and a second database connection unit 304.

The message receiving unit 301 is configured to receive message information sent by the front-end communication server, and call the logic processing unit 302 according to a message type to perform service processing of a corresponding flow.

The logic processing unit 302 is configured to process different types of message information, analyze messages of statistical data types such as GPS positioning data, device alarm data, and device operation data, and store an analysis result in the database application server through the database connection unit 304. When processing the alarm message, the logic processing unit 302 generates a corresponding alarm event, associates and notifies the relevant service processing personnel.

The message communication unit 303 is used for communicating with the front-end communication server and the WEB server.

The database connection unit 304 is used for communicating with the database application server to save, obtain or modify the corresponding service data.

Fig. 7 is a block diagram of a WEB server in the backend server in the embodiment shown in fig. 4. The WEB server is configured to provide a front-end display and operation page, provide a data model, set up a business rule, and the like for business personnel, and as shown in fig. 7, the WEB server mainly includes a front-end display unit 401, a business rule unit 402, and a third database connection unit 403.

The front-end presentation unit 401 is configured to present various service data information stored in the application server, present service data in multiple dimensions, such as time, area, and staff, and provide a corresponding service operation interface for terminal service staff.

The business rule unit 402 is configured to perform rule modeling on various types of business data information (for example, a fan power generation rate is equal to an actual power generation amount/a full-load power generation amount), and set a utilization rate of the monitored fan equipment according to a certain business rule (for example, a fan power generation rate) so as to reasonably allocate equipment resources according to comparison data; the service life of the fan equipment can be predicted according to a certain rule so as to be convenient for maintenance in advance and avoid loss caused by sudden unavailability of the equipment.

The database connection unit 403 is used for communicating with the service processing server to obtain, modify or store corresponding service data.

Fig. 8 is a flowchart of the processing of the backend server during device monitoring by using the device monitoring system shown in fig. 4, which substantially includes the following steps:

step S501, the data receiving unit 201 of the front communication server receives and pre-analyzes the data message sent by the internet of things device 101 through the network 102. The pre-analysis mainly comprises message validity check, equipment authentication, data cleaning and the like, and whether the whole data message accords with the service rule is judged according to the analysis result, if so, the step S502 is executed, otherwise, the step S513 is executed.

Step S502, the data receiving unit 201 authenticates and authenticates the data packet according to the analysis result, and determines whether the device type is a registered device type. If the authentication is passed, step S503 is executed, otherwise step S513 is executed.

Step S503, the protocol conversion unit 202 of the front-end communication server splits the data packet according to the splitting rule, splits the data packet according to the fixed length or splits the packet in json format according to the packet type, and obtains the detailed data of the packet.

Step S504, the protocol conversion unit 202 determines the type of the data packet. If the message is structured data (i.e., text data that can be split according to rules), step S505 is executed; otherwise, step S506 is executed.

In step S505, the first database connection unit 204 saves the structured data.

In step S506, the first database connection unit 204 saves the unstructured data.

Step S507, the first message communication unit 203 composes the message detail information obtained in step S503 into a corresponding message according to the corresponding service assembly rule according to the data message type, and sends the message to the service processing server through the kafka message middleware.

Step S508, the message receiving unit 301 of the service processing server receives the message information, and invokes the logic processing unit 302 to perform corresponding service logic processing.

In step S509, the logic processing unit 302 analyzes the packet type and determines whether the packet is a statistical data packet. If yes, go to step S511; otherwise, step S510 is executed.

Step S510, the logic processing unit 302 determines whether the message type is alarm data. If yes, step S511 is executed to process the alarm message, generate a corresponding alarm event, and notify the relevant service processing personnel through the message communication unit 303; otherwise, step S513 is executed.

Step S511, the database connection unit 304 updates the result of the service logic processing to the database. If the message type is GPS positioning data, the analysis result is stored in a time sequence database; and if the message is the equipment state message, updating the data to the relational database.

Step S512, the front-end presentation unit 401 monitors the change of the database service data, updates the front-end page presentation content according to the service rule unit 402, and provides a corresponding operation interface for the service personnel to use.

In step S513, the data receiving unit 201 or the logic processing unit 302 discards the data packet that does not meet the conditions of the rule, the exception, or the packet type error.

The equipment monitoring method and system based on the Internet of things provided by the invention fully utilize the access capability, equipment management capability and service output capability of the platform equipment of the Internet of things by combining the Internet of things technology, and realize the all-round monitoring of the monitored equipment by combining the map positioning technology and the visualization technology. The physical distribution of the monitored equipment is visually displayed through map service, the running state of the monitored equipment is monitored in real time through collecting the running indexes of the monitored equipment, and remote management of the monitored equipment is realized. Secondly, by utilizing the technical scheme of the invention, the operation efficiency analysis of the monitored equipment is realized, the operation efficiency of the equipment is analyzed from multiple dimensions and is displayed through a visual chart, the operation efficiency of the equipment is found in time, and reasonable resource allocation is carried out. In addition, the technical scheme of the invention can also realize alarm monitoring, provide abnormal alarm of the operation state of the monitored equipment and abnormal alarm of project operation, and improve the risk management level of the monitored equipment.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The principle and the implementation mode of the invention are explained by applying specific embodiments in the invention, and the description of the embodiments is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (9)

1. An equipment monitoring method based on the Internet of things is characterized by comprising the following steps:

receiving an operation state message of monitored equipment sent by Internet of things equipment, and carrying out validity check on the operation state message to judge whether the operation state message meets a preset service rule or not;

if the running state message conforms to the preset service rule, performing authentication on the running state message according to the analysis result so as to judge whether the equipment type of the monitored equipment is the registered equipment type;

if the equipment type is the registered equipment type, splitting the running state message according to a preset splitting rule to obtain message data;

performing logic processing on the message data according to the message type of the running state message, and updating service data in a database according to a logic processing result;

updating a display page of the display terminal according to the change of the service data in the database;

performing logic processing on the message data according to the message type of the running state message, and updating service data in a database according to a logic processing result, wherein the logic processing method comprises the following steps:

analyzing the running state message to obtain the message type of the running state message, wherein the message type comprises a GPS positioning message and an equipment state message;

when the message type is a GPS positioning message, storing the message data in a time sequence database;

and when the message type is the equipment state message, updating the relational database by using the message data.

2. The internet of things-based device monitoring method according to claim 1, wherein after the message data is acquired, the method further comprises:

and carrying out structural judgment on the message data in the running state message so as to judge whether the message data is structural data or unstructured data.

3. The internet of things-based device monitoring method according to claim 1, wherein when the message type of the operation state message is an alarm message, an alarm event including the message data is generated.

4. The method for monitoring equipment based on the internet of things of claim 1, wherein the equipment of the internet of things comprises: sensors, object controllers, and edge gateways.

5. An equipment monitoring device based on the internet of things, the device comprising:

the legality checking unit is used for receiving an operation state message of the monitored equipment sent by the Internet of things equipment and checking the legality of the operation state message to judge whether the operation state message meets a preset service rule or not;

the authentication unit is used for authenticating the running state message according to the analysis result when the running state message accords with the preset service rule so as to judge whether the equipment type of the monitored equipment is the registered equipment type;

the message splitting unit is used for splitting the running state message according to a preset splitting rule when the device type is the registered device type to obtain message data;

the logic processing unit is used for carrying out logic processing on the message data according to the message type of the running state message and updating the service data in the database according to the logic processing result;

the data updating unit is used for updating a display page of the display terminal according to the change of the service data in the database;

the logic processing unit is specifically configured to: analyzing the running state message to obtain the message type of the running state message, wherein the message type comprises a GPS positioning message and an equipment state message; when the message type is a GPS positioning message, storing the message data in a time sequence database; and when the message type is the equipment state message, updating the relational database by using the message data.

6. The internet of things-based equipment monitoring device of claim 5, further comprising: and the structural judgment unit is used for performing structural judgment on the message data in the running state message after the message data is acquired so as to judge whether the message data is structural data or unstructured data.

7. The internet of things-based equipment monitoring device of claim 5, wherein the logic processing unit is further configured to: and when the message type of the running state message is an alarm message, generating an alarm event containing the message data.

8. The internet of things-based equipment monitoring device of claim 5, wherein the internet of things equipment comprises: sensors, object controllers, and edge gateways.

9. An internet of things-based equipment monitoring system, the system comprising: at least one internet of things device, an internet of things based device monitoring apparatus as claimed in any one of claims 5 to 8 and at least one display terminal;

the Internet of things equipment is in communication with the equipment monitoring device in a wired and/or wireless mode and is used for acquiring multi-dimensional information of monitored equipment and sending the acquired information to the equipment monitoring device in an equipment running state message mode;

the equipment monitoring device receives an operation state message of monitored equipment sent by the Internet of things equipment, and carries out validity check on the operation state message to judge whether the operation state message meets a preset service rule or not; if the running state message conforms to the preset service rule, performing authentication on the running state message according to the analysis result so as to judge whether the equipment type of the monitored equipment is the registered equipment type; if the equipment type is the registered equipment type, splitting the running state message according to a preset splitting rule to obtain message data; performing logic processing on the message data according to the message type of the running state message, and updating service data in a database according to a logic processing result; updating a display page of the display terminal according to the change of the service data in the database;

the display terminal is used for displaying the running state information of the monitored equipment according to the service data updated by the equipment monitoring device;

the equipment monitoring device is specifically used for analyzing the running state message to obtain the message type of the running state message, wherein the message type comprises a GPS positioning message and an equipment state message; when the message type is a GPS positioning message, storing the message data in a time sequence database; and when the message type is the equipment state message, updating the relational database by using the message data.

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