CN112835968A - Intelligent equipment linkage method based on Internet of things - Google Patents
Intelligent equipment linkage method based on Internet of things Download PDFInfo
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Abstract
The invention discloses an intelligent equipment linkage method based on the Internet of things, and belongs to the technical field of the Internet of things. The intelligent equipment linkage method based on the Internet of things is based on an Internet of things platform, direct connection equipment, gateway equipment and a third-party platform, the Internet of things platform is provided with an Internet of things database and intelligent linkage, the Internet of things database supports data warehousing, data cleaning and data reporting, the intelligent linkage supports data source configuration, trigger rule management, linkage equipment binding and command issuing configuration, equipment connection is arranged among the direct connection equipment, the gateway equipment, the third-party platform and the Internet of things platform, and equipment linkage is arranged among the direct connection equipment, the gateway equipment, the third-party platform and the Internet of things platform. The intelligent equipment linkage method based on the Internet of things can improve the management efficiency of the Internet of things on the Internet of things equipment, realizes energy-saving, efficient and intelligent construction of smart cities, and has good popularization and application values.
Description
Technical Field
The invention relates to the technical field of Internet of things, and particularly provides an intelligent equipment linkage method based on the Internet of things.
Background
With the continuous development of communication technology, the communication speed and the communication quality are greatly improved, so that the technology of the internet of things becomes more important in the construction of smart cities. The technology of the internet of things realizes the access of massive terminal equipment and provides open sharing of data and data analysis capacity. A channel for interaction of the equipment and the Internet of things is opened through various modes such as a physical gateway, a cloud gateway and an application system gateway, and data acquisition and reverse control of the equipment are realized through adaptation of cross-manufacturer, cross-protocol and multi-network. In the field of smart cities, mass equipment can be controlled in batches and data can be monitored through an Internet of things platform.
However, the internet of things still needs to consider the problems of energy conservation and emission reduction and equipment intellectualization while creating an intelligent city and enabling equipment, for example, the capabilities of realizing energy conservation and emission reduction of street lamps, realizing automatic alarm processing of equipment faults, realizing self-regulation of environment and the like through the internet of things.
Disclosure of Invention
The technical task of the invention is to provide an intelligent equipment linkage method based on the Internet of things, which can improve the management efficiency of the Internet of things on the Internet of things equipment and realize energy-saving, efficient and intelligent construction of smart cities.
In order to achieve the purpose, the invention provides the following technical scheme:
an intelligent equipment linkage method based on the Internet of things is based on an Internet of things platform, direct connection equipment, gateway equipment and a third-party platform, the Internet of things platform is provided with an Internet of things database and intelligent linkage, the Internet of things database supports data warehousing, data cleaning and data reporting, the intelligent linkage supports data source configuration, trigger rule management, linkage equipment binding and command issuing configuration, equipment connection is arranged among the direct connection equipment, the gateway equipment, the third-party platform and the Internet of things platform, and equipment linkage is arranged among the direct connection equipment, the gateway equipment, the third-party platform and the Internet of things platform.
The equipment connection realizes centralized and unified management of different manufacturers and different types of equipment through a product-gateway-equipment three-level management mechanism, integrates the equipment attributes, services, events and the like of each equipment manufacturer, establishes a standard and normative equipment authentication model library, and realizes quick one-key access.
Preferably, the Internet of things platform registers the Internet of things equipment, and communicates with the directly connected equipment through an MQTT protocol or is connected with the equipment through a gateway.
Preferably, after the internet of things platform and the equipment are communicated with each other, the equipment pushes the registration information to the internet of things platform for registration and record, and each equipment has an ID with a unique identifier.
Preferably, the equipment pushes the Internet of things data to the Internet of things platform after registering and recording the Internet of things platform, and the Internet of things data is used as a starting data source for starting in the follow-up linkage time.
Preferably, abnormal data without reference significance are screened out through data cleaning of the internet of things data pushed by the equipment, and real-time internet of things data are detected through spark and flink stream data engines.
Preferably, the data source configuration stores configured data source information, and the data source is subjected to the operations of increasing, deleting, modifying and checking.
Preferably, the trigger rule management presents the configured device trigger rules in a list page form, controls the start and stop of the rules, and edits the rules which are not started.
Preferably, the linkage equipment binding generates an operation instruction by triggering the linkage rule, issues the instruction to the target equipment, obtains response feedback, and verifies whether the command is successfully executed.
Preferably, after the event is triggered under the existing rule, the Internet of things data is positioned to the Internet of things equipment needing linkage through the Internet of things platform, the Internet of things platform inquires adjustable parameters defined during equipment registration, sets values to be adjusted for parameter fields, tests equipment communication, and completes linkage operation configuration after the test is passed.
The intelligent equipment linkage method based on the Internet of things receives the Internet of things data output by equipment or a third-party platform, and currently, the storage of a relational database (such as MySQL and Oracle) is supported by default, and the butt joint of a non-relational database (such as redis, MongoDB and a message queue) can be completed according to the requirements of the third party. Setting a filtering condition for the reported internet of things data, screening out data exceeding a standard threshold value, generating a linkage event, automatically issuing an instruction to equipment needing to respond, and pushing the instruction to a notification mailbox or a mobile phone; and issuing the automatically generated equipment instruction to the equipment through a gateway or a third-party equipment platform, and responding. Therefore, automatic and intelligent connection between objects is realized in the platform of the Internet of things.
Compared with the prior art, the intelligent equipment linkage method based on the Internet of things has the following outstanding beneficial effects: the intelligent equipment linkage method based on the Internet of things can reduce manual operation on the Internet of things equipment, realize automatic control between objects, improve the management efficiency of the Internet of things on the Internet of things equipment, and realize energy-saving, efficient and intelligent construction of smart cities.
Drawings
Fig. 1 is a flow chart of the intelligent linkage method of the equipment based on the internet of things.
Detailed Description
The intelligent linkage method for the equipment based on the internet of things is further described in detail with reference to the attached drawings and the embodiment.
Examples
As shown in fig. 1, the method for intelligently linking devices based on the internet of things is based on an internet of things platform, a direct connection device, a gateway device and a third-party platform, the internet of things platform is provided with an internet of things database and intelligent linkage, the internet of things database supports data warehousing, data cleaning and data reporting, the intelligent linkage supports data source configuration, trigger rule management, linkage device binding and command issuing configuration, device connections are arranged among the direct connection device, the gateway device, the third-party platform and the internet of things platform, and the direct connection device, the gateway device, the third-party platform and the internet of things platform are linked.
The Internet of things platform registers the Internet of things equipment, and the Internet of things platform communicates with the directly connected equipment through an MQTT protocol or is connected with the equipment through a gateway. After the internet of things platform and the equipment are communicated with each other, the equipment can push the registration information to the internet of things platform for registration and record, and each equipment has an ID with a unique identifier. After the equipment registers and records on the Internet of things platform, the equipment pushes Internet of things data to the Internet of things platform to serve as a starting data source for starting in the follow-up linkage time. Abnormal data without reference significance are screened out through data cleaning of the internet of things data pushed by the equipment, and real-time internet of things data are detected through spark and flink stream data engines.
The data source configuration stores the configured data source information, and the data source is subjected to the operations of increasing, deleting, modifying and checking. The data source configuration page is a card layout and lists configured data source information. Clicking a viewing button in a data source card, namely presenting basic information of the data database and updated information of the data source in a popup window mode, and only viewing the basic information and the updated information; the basic information of the data source and the configuration of the database can be updated and stored by clicking an editing button; clicking a delete button, and deleting the data source after confirmation; inputting a data source name in a search box at the upper left corner, and clicking a search button to perform data source screening query; clicking a 'exporting' button, and exporting all data source basic information through an Excel format; and clicking an import button to import the data source in batches in the Excel format. Clicking a 'create data source' button, filling a data source name in a popup, selecting whether the data source is started, selecting a database type (supporting MySQL, Oracle and MongoDB), filling a database version, configuring an IP address, a port number, a database name, a login account number and a password, and clicking a 'connection test' button after data is finished to perform database connection test. And after the configuration is finished, clicking 'confirm' to finish the data source creating operation.
The trigger rule management presents the configured device trigger rules in a list page form, controls the start and stop of the rules, and carries out editing operation on the rules which are not started. The rule name is input in the input box, and the existing rule can be screened (fuzzy search is supported) by the name condition by clicking a 'search' button. The rule information presented is: device type, rule name, rule status, etc.; clicking an 'editing' button in the list, editing and storing the information needing to be modified, and then completing the editing function; clicking a 'delete' button in the list, and deleting the currently selected single rule after confirmation. Meanwhile, the batch deletion of the rules can be carried out by checking through a multi-selection box in the list and clicking a deletion button at the upper right corner. Clicking a 'newly added' button to carry out rule configuration in a newly added popup window. Firstly, setting rule name, rule grade, rule description, event type and equipment type suitable for the rule, then clicking 'next step', selecting database and data table to obtain index field defined in event index module, and automatically generating rule expression (rule trigger condition) by clicking field and operator button; then, configuring a 'time condition field' representing data reporting time, selecting a time format and selecting a 'device ID field' capable of uniquely identifying the device; when describing the rule, if the basic information content of the equipment is needed, a basic information data table can be added, the principle and the selection process of the data index are adopted, and the configured equipment information can be recorded into a trigger log when an event is triggered; after configuration is finished, a 'rule test' button is clicked, if the test is passed, a 'determination' button can be clicked to finish rule addition, and if the test is not passed, the rule addition can be modified according to a prompt.
Clicking an "edit" button in the trigger configuration list can edit the trigger event of the current rule. And selecting the effective time of the rule (namely the starting and ending time of the rule execution), the mail push address, the mobile phone short message push address and the operation rule in the popup window, wherein the operation rule can be visually configured by clicking a 'configuration' button, and the operation rule code can be automatically generated after the operation time is visually selected. And clicking 'confirm' after configuration is completed.
And the linkage equipment binding generates an operation instruction by triggering a linkage rule, issues the instruction to the target equipment, acquires response feedback and verifies whether the command is successfully executed. And simultaneously, updating the linkage record into a system log for abnormal condition investigation.
And after the Internet of things data triggers an event under the existing rule, the Internet of things platform is used for positioning the Internet of things equipment needing linkage, the Internet of things platform inquires adjustable parameters defined when the equipment is registered, the numerical values to be adjusted are set for the parameter fields, the equipment communication is tested, and the linkage operation configuration is completed after the test is passed.
The equipment connection of the intelligent equipment linkage method based on the Internet of things realizes centralized and unified management of different manufacturers and different types of equipment through a product-gateway-equipment three-level management mechanism, integrates the equipment attributes, services, events and the like of each equipment manufacturer, establishes a standard and normative equipment authentication model library, and realizes quick one-key access. The data of the internet of things output by equipment or a third-party platform is received, and the existing default support of the storage of a relational database (such as MySQL and Oracle) can also complete the butt joint of a non-relational database (such as redis, MongoDB and message queues) according to the requirements of a third party. Setting a filtering condition for the reported internet of things data, screening out data exceeding a standard threshold value, generating a linkage event, automatically issuing an instruction to equipment needing to respond, and pushing the instruction to a notification mailbox or a mobile phone; and issuing the automatically generated equipment instruction to the equipment through a gateway or a third-party equipment platform, and responding. Therefore, automatic and intelligent connection between objects is realized in the platform of the Internet of things.
The above-described embodiments are merely preferred embodiments of the present invention, and general changes and substitutions by those skilled in the art within the technical scope of the present invention are included in the protection scope of the present invention.
Claims (9)
1. An intelligent equipment linkage method based on the Internet of things is characterized in that: the method is based on an Internet of things platform, direct connection equipment, gateway equipment and a third-party platform, the Internet of things platform is provided with an Internet of things database and intelligent linkage, the Internet of things database supports data warehousing, data cleaning and data reporting, the intelligent linkage supports data source configuration, trigger rule management and linkage equipment binding and command issuing configuration, equipment connection is arranged among the direct connection equipment, the gateway equipment, the third-party platform and the Internet of things platform, and the direct connection equipment, the gateway equipment, the third-party platform and the Internet of things platform are in linkage.
2. The intelligent linkage method for equipment based on the Internet of things according to claim 1, wherein: the Internet of things platform registers the Internet of things equipment, and the Internet of things platform communicates with the directly connected equipment through an MQTT protocol or is connected with the equipment through a gateway.
3. The intelligent linkage method for equipment based on the Internet of things according to claim 2, wherein: after the internet of things platform and the equipment are communicated with each other, the equipment can push the registration information to the internet of things platform for registration and record, and each equipment has an ID with a unique identifier.
4. The intelligent linkage method for equipment based on the Internet of things according to claim 3, wherein: after the equipment registers and records on the Internet of things platform, the equipment pushes Internet of things data to the Internet of things platform to serve as a starting data source for starting in the follow-up linkage time.
5. The intelligent linkage method for equipment based on the Internet of things according to claim 4, wherein: abnormal data without reference significance are screened out through data cleaning of the internet of things data pushed by the equipment, and real-time internet of things data are detected through spark and flink stream data engines.
6. The intelligent linkage method for equipment based on the Internet of things of claim 5, wherein: the data source configuration stores the configured data source information, and the data source is subjected to the operations of increasing, deleting, modifying and checking.
7. The intelligent linkage method for equipment based on the Internet of things of claim 6, wherein: the trigger rule management presents the configured device trigger rules in a list page form, controls the start and stop of the rules, and carries out editing operation on the rules which are not started.
8. The intelligent linkage method for equipment based on the Internet of things of claim 7, wherein: and the linkage equipment binding generates an operation instruction by triggering a linkage rule, issues the instruction to the target equipment, acquires response feedback and verifies whether the command is successfully executed.
9. The intelligent linkage method for equipment based on the Internet of things according to claim 8, wherein: and after the Internet of things data triggers an event under the existing rule, the Internet of things platform is used for positioning the Internet of things equipment needing linkage, the Internet of things platform inquires adjustable parameters defined when the equipment is registered, the numerical values to be adjusted are set for the parameter fields, the equipment communication is tested, and the linkage operation configuration is completed after the test is passed.
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN114328732A (en) * | 2021-12-22 | 2022-04-12 | 浪潮卓数大数据产业发展有限公司 | Intelligent linkage system and method of Internet of things equipment |
| CN115314549A (en) * | 2022-06-30 | 2022-11-08 | 青岛海尔科技有限公司 | Offline device management method, storage medium and electronic device |
| CN115879160A (en) * | 2023-02-08 | 2023-03-31 | 杭州海康威视数字技术股份有限公司 | Customizable privacy protection method, system, device and equipment based on semantic perception |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN114328732A (en) * | 2021-12-22 | 2022-04-12 | 浪潮卓数大数据产业发展有限公司 | Intelligent linkage system and method of Internet of things equipment |
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