CN114328732A - Intelligent linkage system and method of Internet of things equipment - Google Patents
Intelligent linkage system and method of Internet of things equipment Download PDFInfo
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Abstract
The invention discloses an intelligent linkage system and method of Internet of things equipment, relating to the technical field of Internet of things equipment and comprising a docking module, a linkage rule management module and a linkage command issuing module; the docking module registers the Internet of things equipment on the Internet of things platform and pushes the Internet of things data generated by the equipment to the platform; the linkage rule management module performs 1) data source configuration: linking Internet of things data, extracting judgment indexes and equipment identifiers influencing linkage rules, and 2) triggering rule management: setting a trigger rule to generate a linkage event based on the judgment index; 3) binding the linkage equipment: binding the equipment identifier and the linkage event; and the linkage command issuing module configures an operation instruction based on the linkage event. When the linkage rule management module generates a linkage event based on the Internet of things data, the linkage command issuing module generates a corresponding operation instruction, positions the operation instruction to the equipment needing linkage, and then issues the operation instruction to the equipment. The invention can realize energy-saving, efficient and intelligent construction of the smart city.
Description
Technical Field
The invention relates to the technical field of Internet of things equipment, in particular to an intelligent linkage system and method of the Internet of things equipment.
Background
The application field of the Internet of things relates to the aspects of the aspects, and the application of the Internet of things in the infrastructure fields of industry, agriculture, environment, traffic, logistics, security and the like effectively promotes the intelligent development of the aspects, so that the limited resources are more reasonably used and distributed, and the industry efficiency and the benefit are improved. The method is applied to the fields which are closely related to life, such as home furnishing, medical health, education, finance, service industry, tourism industry and the like, the service range, the service mode, the service quality and the like are greatly improved, and the life quality of people is greatly improved.
In the field of smart cities, the characteristics of integral sensing, reliable transmission and intelligent processing of the Internet of things are utilized, and batch control and data monitoring of mass equipment by the platform of the Internet of things can be realized.
In order to respond to the call for building green cities, energy conservation and emission reduction should be fully considered in the process of building smart cities, and equipment is energized. Meanwhile, equipment intellectualization is also a vital part in the construction process of the smart city.
Disclosure of Invention
Aiming at the requirements and the defects of the prior art development, the invention provides an intelligent linkage system and method of Internet of things equipment.
Firstly, the invention discloses an intelligent linkage system for protecting equipment of the Internet of things, and the technical scheme adopted for solving the technical problems is as follows:
an intelligent linkage system of Internet of things equipment comprises a docking module, a linkage rule management module and a linkage command issuing module;
the docking module is used for registering and recording the Internet of things equipment with the unique identification ID on the Internet of things platform, so that the registered and recorded Internet of things equipment is in communication connection with the Internet of things platform, and is used for pushing the Internet of things data generated by the Internet of things equipment to the Internet of things platform and storing the Internet of things data in a database;
the linkage rule management module is used for carrying out three operations of data source configuration, trigger rule management and linkage equipment binding; when the linkage rule management module carries out data source configuration, the Internet of things data in the database needs to be linked, and a judgment index used for judging the linkage rule and the equipment ID of the Internet of things in the Internet of things data are extracted; when the linkage rule management module is used for managing the trigger rules, the corresponding trigger rules need to be set based on the extracted judgment indexes, and linkage events are generated; when the linkage rule management module binds linkage equipment, the ID of the equipment of the Internet of things needs to be bound with a trigger rule and a linkage event;
the linkage command issuing module configures a corresponding operation instruction based on the linkage event;
when the linkage rule management module generates a linkage event based on the Internet of things data of the database, the linkage command issuing module generates a corresponding operation instruction based on the linkage event on one hand, and positions the Internet of things equipment needing linkage through the Internet of things platform on the other hand, then the linkage command issuing module issues the operation instruction to the Internet of things equipment with linkage relation through the Internet of things platform, the Internet of things equipment executes the operation instruction and returns an execution result, and the linkage command issuing module updates and stores linkage records in a log according to the return result for troubleshooting of abnormal conditions.
Optionally, the related internet of things platform firstly performs data cleaning on the internet of things data, then detects the cleaned internet of things data in real time through a spark/flex stream data engine, and stores the data in the database, and all the internet of things data in the database are used as data sources triggered by subsequent linkage events.
Optionally, when the related linkage rule management module performs data source configuration, a page with a card layout is adopted, and the page displays a plurality of registered internet of things devices and internet of things data pushed by the internet of things devices; the administrator can delete or add the internet of things equipment displayed on the page.
Further optionally, when the related linkage rule management module performs trigger rule management, a page with a tabulated layout is adopted, the page displays trigger rules set based on different internet of things device IDs, a start-stop switch is arranged behind each trigger rule, and a user can set the trigger rules and control start and stop on the page.
Further optionally, when the linkage rule management module is used for binding the linkage equipment, a page with a tabulated layout is adopted, the page displays the internet of things equipment ID, the trigger rule bound based on the internet of things equipment ID and the generated trigger event, a binding or unbinding switch is arranged behind each internet of things equipment ID, a start-stop switch is arranged behind each trigger rule, a user can perform binding or unbinding operation of the internet of things equipment on the page, and start-stop control of the trigger rule or the trigger event can be performed.
Preferably, the butt joint module realizes the communication connection between the internet of things equipment and the internet of things platform through a direct connection mode, a gateway mode or a third-party platform mode.
Secondly, the invention discloses an intelligent linkage method for protecting equipment of the Internet of things, and the technical scheme adopted for solving the technical problems is as follows:
an intelligent linkage method of Internet of things equipment is realized based on a docking module, a linkage rule management module and a linkage command issuing module, and the specific realization process comprises the following steps:
registering and recording the Internet of things equipment with the unique identification ID on the Internet of things platform by using a docking module, so that the registered and recorded Internet of things equipment is in communication connection with the Internet of things platform, and then pushing Internet of things data generated by the Internet of things equipment to the Internet of things platform and storing the Internet of things data in a database;
and (3) configuring a data source by using a linkage rule management module: linking the Internet of things data in the database, and extracting a judgment index used for judging the linkage rule and the equipment ID of the Internet of things in the Internet of things data;
and (3) carrying out trigger rule management by using a linkage rule management module: setting a corresponding trigger rule based on the extracted judgment index, and generating a linkage event;
and binding linkage equipment by using a linkage rule management module: binding the ID triggering rule and the linkage event of the equipment of the Internet of things;
configuring an operation instruction based on a linkage event by using a linkage command issuing module;
when the linkage rule management module generates a linkage event based on the Internet of things data of the database, the linkage command issuing module generates a corresponding operation instruction based on the linkage event on one hand, and positions the Internet of things equipment needing linkage through the Internet of things platform on the other hand, then the linkage command issuing module issues the operation instruction to the Internet of things equipment with linkage relation through the Internet of things platform, the Internet of things equipment executes the operation instruction and returns an execution result, and the linkage command issuing module updates and stores linkage records in a log according to the return result for troubleshooting of abnormal conditions.
Optionally, the related internet of things platform firstly performs data cleaning on the internet of things data, then detects the cleaned internet of things data in real time through a spark/flex stream data engine, and stores the data in the database, and all the internet of things data in the database are used as data sources triggered by subsequent linkage events.
Optionally, when the linkage rule management module is used for configuring the data source, a page with a card layout is adopted, and the page displays a plurality of registered internet of things devices and internet of things data pushed by the internet of things devices; the administrator can delete or add the internet of things equipment displayed on the page;
when the linkage rule management module is used for triggering rule management, a page with tabulated layout is adopted, the page displays triggering rules set based on different Internet of things equipment IDs, a start-stop switch is arranged behind each triggering rule, and a user can set the triggering rules and control the start-stop on the page;
when the linkage equipment is bound by using the linkage rule management module, a page with tabulated layout is adopted, the page displays the Internet of things equipment ID, the trigger rule bound based on the Internet of things equipment ID and the generated trigger event, a binding or unbinding switch is arranged behind each Internet of things equipment ID, a start-stop switch is arranged behind each trigger rule, a user can perform binding or unbinding operation on the Internet of things equipment on the page, and start-stop control on the trigger rule or the trigger event can be performed.
Preferably, the butt joint module realizes the communication connection between the internet of things equipment and the internet of things platform through a direct connection mode, a gateway mode or a third-party platform mode.
Compared with the prior art, the intelligent linkage system and method of the Internet of things equipment have the beneficial effects that:
(1) according to the intelligent city management system, automatic control among the Internet of things devices can be achieved through the Internet of things platform, the management efficiency of the Internet of things platform on the Internet of things devices is improved, and energy-saving, efficient and intelligent construction of the intelligent city is achieved;
(2) the invention can improve the efficiency of smart city construction, reduce labor cost, reduce energy consumption in the smart city construction process,
drawings
Fig. 1 is a connection diagram of a module for realizing the invention.
The reference information in the drawings indicates:
1. a docking module, 2, a linkage rule management module, 3, a linkage command issuing module,
A. the system comprises an Internet of things platform, a database, B and Internet of things equipment.
Detailed Description
In order to make the technical scheme, the technical problems to be solved and the technical effects of the present invention more clearly apparent, the following technical scheme of the present invention is clearly and completely described with reference to the specific embodiments.
The first embodiment is as follows:
with reference to fig. 1, the present embodiment provides an intelligent linkage system of an internet of things device, where the intelligent linkage system includes a docking module 1, a linkage rule management module 2, and a linkage command issuing module 3.
The docking module 1 is used for registering and recording the Internet of things equipment B with the unique identification ID on the Internet of things platform A, so that the Internet of things equipment B which is registered and recorded is in communication connection with the Internet of things platform A, and is used for pushing the Internet of things data generated by the Internet of things equipment B to the Internet of things platform A, the Internet of things platform A firstly performs data cleaning on the Internet of things data, then detects the cleaned Internet of things data in real time through a spark/flink flow data engine and stores the data in a database a, and all the Internet of things data of the database a serve as a data source triggered by a subsequent linkage event. In this embodiment, the docking module 1 realizes the communication connection between the internet of things device B and the internet of things platform a in a manner of direct connection, a gateway, or a third party platform.
The linkage rule management module 2 is used for performing three operations of (1) data source configuration, (2) trigger rule management and (3) linkage equipment binding.
(1) When the linkage rule management module 2 performs data source configuration, the internet of things data in the database a needs to be linked, and a judgment index used for judging the linkage rule and the internet of things device BID in the internet of things data are extracted. In the process, the linkage rule management module 2 adopts a page with card layout, and the page displays a plurality of registered Internet of things devices B and Internet of things data pushed by the Internet of things devices B; the administrator can delete or add the internet of things device B displayed on the page.
(2) When the linkage rule management module 2 manages the trigger rule, the corresponding trigger rule needs to be set based on the extracted judgment index, and the linkage event is generated. In the process, the linkage rule management module 2 adopts a page with tabulated layout, the page displays trigger rules set based on different internet of things device BIDs, a start-stop switch is arranged behind each trigger rule, and a user can set the trigger rules and control the start-stop on the page. For example, taking the intelligent lighting device as an example, when the environment sensor senses that the illumination intensity is lower than 1000lx, the instruction of increasing the illumination brightness is issued to the lighting device, so as to complete the forward adjustment of the environment. In this flow, first, a data source for linkage rule determination is acquired by linking the database a of the environmental sensor. And extracting a field representing the illumination intensity from the database a as a judgment index, and extracting the equipment ID as a basis for selecting the linkage equipment. After the internet of things data is acquired from the data source, the internet of things data needs to be configured with a trigger rule, and a linkage event is generated. For example, when the value of the determination index representing the intensity of the illumination is less than 1000lx, it is determined that the current ambient brightness does not satisfy the normal living needs, and thus it is necessary to perform linkage of the lighting devices to improve the brightness of the lighting devices.
(3) When the linkage rule management module 2 binds linkage equipment, the BID of the Internet of things equipment needs to be bound with the trigger rule and the linkage event. In the process, the linkage rule management module 2 adopts a page with tabulated layout, the page displays the internet of things device BID, the trigger rules bound based on the internet of things device BID and the generated trigger events, a binding or unbinding switch is arranged behind each internet of things device BID, a start-stop switch is arranged behind each trigger rule, and a user can perform binding or unbinding operation of the internet of things device B on the page and can also perform start-stop control of the trigger rules or the trigger events.
The linkage command issuing module 3 configures corresponding operation instructions based on linkage events.
When the linkage rule management module 2 generates a linkage event based on the internet of things data of the database a, the linkage command issuing module 3 generates a corresponding operation instruction based on the linkage event on one hand, and positions the internet of things equipment B needing linkage through the internet of things platform A on the other hand, then the linkage command issuing module 3 issues the operation instruction to the internet of things equipment B with linkage relation through the internet of things platform A, the internet of things equipment B executes the operation instruction and returns an execution result, and the linkage command issuing module 3 updates and stores linkage records in a log according to the return result for troubleshooting of abnormal conditions.
Example two:
with reference to fig. 1, this embodiment provides an intelligent linkage method for an internet of things device, where the implementation of the intelligent linkage method is based on a docking module 1, a linkage rule management module 2, and a linkage command issuing module 3, and the specific implementation process includes:
the method comprises the following steps that (I) the Internet of things equipment B with the unique identification ID is registered and recorded on an Internet of things platform A by using a docking module 1, the Internet of things equipment B which is registered and recorded is in communication connection with the Internet of things platform A, then, Internet of things data generated by the Internet of things equipment B is pushed to the Internet of things platform A, the Internet of things platform A firstly performs data cleaning on the Internet of things data, then, the cleaned Internet of things data is detected in real time through a spark/flink flow data engine and is stored in a database a, and all the Internet of things data of the database a serve as a data source triggered by a subsequent linkage event. In this embodiment, the docking module 1 realizes the communication connection between the internet of things device B and the internet of things platform a in a manner of direct connection, a gateway, or a third party platform.
And (II) performing data source configuration by using the linkage rule management module 2: and linking the Internet of things data in the database a, and extracting a judgment index used for judging the linkage rule and the equipment BID of the Internet of things from the Internet of things data. In the process, the linkage rule management module 2 adopts a page with card layout, and the page displays a plurality of registered Internet of things devices B and Internet of things data pushed by the Internet of things devices B; the administrator can delete or add the internet of things device B displayed on the page.
And (III) using the linkage rule management module 2 to manage the trigger rule: and setting a corresponding trigger rule based on the extracted judgment index, and generating a linkage event. In the process, the linkage rule management module 2 adopts a page with tabulated layout, the page displays trigger rules set based on different internet of things device BIDs, a start-stop switch is arranged behind each trigger rule, and a user can set the trigger rules and control the start-stop on the page. For example, taking the intelligent lighting device as an example, when the environment sensor senses that the illumination intensity is lower than 1000lx, the instruction of increasing the illumination brightness is issued to the lighting device, so as to complete the forward adjustment of the environment. In this flow, first, a data source for linkage rule determination is acquired by linking the database a of the environmental sensor. And extracting a field representing the illumination intensity from the database a as a judgment index, and extracting the equipment ID as a basis for selecting the linkage equipment. After the internet of things data is acquired from the data source, the internet of things data needs to be configured with a trigger rule, and a linkage event is generated. For example, when the value of the determination index representing the intensity of the illumination is less than 1000lx, it is determined that the current ambient brightness does not satisfy the normal living needs, and thus it is necessary to perform linkage of the lighting devices to improve the brightness of the lighting devices.
And (IV) using the linkage rule management module 2 to bind linkage equipment: binding the BID triggering rule and the linkage event of the equipment of the Internet of things. In the process, the linkage rule management module 2 adopts a page with tabulated layout, the page displays the internet of things device BID, the trigger rules bound based on the internet of things device BID and the generated trigger events, a binding or unbinding switch is arranged behind each internet of things device BID, a start-stop switch is arranged behind each trigger rule, and a user can perform binding or unbinding operation of the internet of things device B on the page and can also perform start-stop control of the trigger rules or the trigger events.
And (V) configuring the operation instruction based on the linkage event by using the linkage command issuing module 3.
After the steps (a) to (v) are executed, when the linkage rule management module 2 generates a linkage event based on the internet of things data of the database a, the linkage command issuing module 3 generates a corresponding operation instruction based on the linkage event on one hand, and positions the internet of things equipment B needing linkage through the internet of things platform a on the other hand, then the linkage command issuing module 3 issues the operation instruction to the internet of things equipment B with linkage relation through the internet of things platform a, the internet of things equipment B executes the operation instruction and returns an execution result, and the linkage command issuing module 3 updates and stores a linkage record in a log according to the returned result for troubleshooting.
In summary, by adopting the intelligent linkage system and method of the internet of things equipment, automatic control between the internet of things equipment B can be realized through the internet of things platform A, the management efficiency of the internet of things platform A on the internet of things equipment B is improved, and energy-saving, efficient and intelligent construction of a smart city is realized.
The principles and embodiments of the present invention have been described in detail using specific examples, which are provided only to aid in understanding the core technical content of the present invention. Based on the above embodiments of the present invention, those skilled in the art should make any improvements and modifications to the present invention without departing from the principle of the present invention, and therefore, the present invention should fall into the protection scope of the present invention.
Claims (10)
1. An intelligent linkage system of Internet of things equipment is characterized by comprising a docking module, a linkage rule management module and a linkage command issuing module;
the docking module is used for registering and recording the Internet of things equipment with the unique identification ID on the Internet of things platform, so that the registered and recorded Internet of things equipment is in communication connection with the Internet of things platform, and is used for pushing the Internet of things data generated by the Internet of things equipment to the Internet of things platform and storing the Internet of things data in a database;
the linkage rule management module is used for carrying out three operations of data source configuration, trigger rule management and linkage equipment binding; when the linkage rule management module carries out data source configuration, the Internet of things data in the database needs to be linked, and a judgment index used for judging the linkage rule and the equipment ID of the Internet of things in the Internet of things data are extracted; when the linkage rule management module is used for managing the trigger rules, the corresponding trigger rules need to be set based on the extracted judgment indexes, and linkage events are generated; when the linkage rule management module binds linkage equipment, the ID of the equipment of the Internet of things needs to be bound with a trigger rule and a linkage event;
the linkage command issuing module configures a corresponding operation instruction based on the linkage event;
when the linkage rule management module generates a linkage event based on the Internet of things data of the database, the linkage command issuing module generates a corresponding operation instruction based on the linkage event on one hand, and positions the Internet of things equipment needing linkage through the Internet of things platform on the other hand, then the linkage command issuing module issues the operation instruction to the Internet of things equipment with linkage relation through the Internet of things platform, the Internet of things equipment executes the operation instruction and returns an execution result, and the linkage command issuing module updates and stores a linkage record in a log according to the return result for troubleshooting of abnormal conditions.
2. The intelligent linkage system of the Internet of things equipment according to claim 1, wherein the Internet of things platform firstly performs data cleaning on Internet of things data, then detects the cleaned Internet of things data in real time through a spark/flink flow data engine, and stores the data in a database, and all the Internet of things data in the database are used as data sources triggered by subsequent linkage events.
3. The intelligent linkage system of the internet of things equipment according to claim 1 or 2, wherein when the linkage rule management module configures a data source, a page with a card layout is adopted, and the page displays a plurality of registered internet of things equipment and internet of things data pushed by the internet of things equipment; the administrator can delete or add the internet of things equipment displayed on the page.
4. The intelligent linkage system of the internet of things equipment according to claim 3, wherein when the linkage rule management module performs trigger rule management, a page with a listing layout is adopted, the page displays trigger rules set based on different IDs of the internet of things equipment, a start-stop switch is arranged behind each trigger rule, and a user can set the trigger rules and control the start-stop of the trigger rules on the page.
5. The intelligent linkage system of the IOT equipment according to claim 4, wherein when the linkage rule management module binds the linkage equipment, a page with a tabulated layout is adopted, the page displays IOT equipment IDs (identity) and trigger rules and generated trigger events bound based on the IOT equipment IDs, a binding or unbinding switch is arranged behind each IOT equipment ID, a start-stop switch is arranged behind each trigger rule, and a user can perform binding or unbinding operation of the IOT equipment on the page and can also perform start-stop control of the trigger rules or the trigger events.
6. The intelligent linkage system of the equipment of the internet of things according to claim 1, wherein the docking module is used for realizing communication connection between the equipment of the internet of things and the platform of the internet of things in a direct connection mode, a gateway mode or a third-party platform mode.
7. The intelligent linkage method of the Internet of things equipment is characterized in that the intelligent linkage method is realized based on a docking module, a linkage rule management module and a linkage command issuing module, and the specific realization process comprises the following steps:
registering and recording the Internet of things equipment with the unique identification ID on the Internet of things platform by using a docking module, so that the registered and recorded Internet of things equipment is in communication connection with the Internet of things platform, and then pushing Internet of things data generated by the Internet of things equipment to the Internet of things platform and storing the Internet of things data in a database;
and (3) configuring a data source by using a linkage rule management module: linking the Internet of things data in the database, and extracting a judgment index used for judging the linkage rule and the equipment ID of the Internet of things in the Internet of things data;
and (3) carrying out trigger rule management by using a linkage rule management module: setting a corresponding trigger rule based on the extracted judgment index, and generating a linkage event;
and binding linkage equipment by using a linkage rule management module: binding the ID triggering rule and the linkage event of the equipment of the Internet of things;
configuring an operation instruction based on a linkage event by using a linkage command issuing module;
when the linkage rule management module generates a linkage event based on the Internet of things data of the database, the linkage command issuing module generates a corresponding operation instruction based on the linkage event on one hand, and positions the Internet of things equipment needing linkage through the Internet of things platform on the other hand, then the linkage command issuing module issues the operation instruction to the Internet of things equipment with linkage relation through the Internet of things platform, the Internet of things equipment executes the operation instruction and returns an execution result, and the linkage command issuing module updates and stores a linkage record in a log according to the return result for troubleshooting of abnormal conditions.
8. The intelligent linkage method of the Internet of things equipment according to claim 7, wherein the Internet of things platform firstly performs data cleaning on Internet of things data, then detects the cleaned Internet of things data in real time through a spark/flink flow data engine, and stores the data in a database, and all the Internet of things data in the database are used as data sources triggered by subsequent linkage events.
9. The intelligent linkage method of the internet of things equipment according to claim 7, wherein when the linkage rule management module is used for configuring the data source, a page of card layout is adopted, and the page displays a plurality of registered internet of things equipment and internet of things data pushed by the internet of things equipment; the administrator can delete or add the internet of things equipment displayed on the page;
when the linkage rule management module is used for triggering rule management, a page with tabulated layout is adopted, the page displays triggering rules set based on different Internet of things equipment IDs, a start-stop switch is arranged behind each triggering rule, and a user can set the triggering rules and control the start-stop on the page;
when the linkage equipment is bound by using the linkage rule management module, a page with tabulated layout is adopted, the page displays the Internet of things equipment ID, the trigger rule bound based on the Internet of things equipment ID and the generated trigger event, a binding or unbinding switch is arranged behind each Internet of things equipment ID, a start-stop switch is arranged behind each trigger rule, a user can perform binding or unbinding operation on the Internet of things equipment on the page, and start-stop control on the trigger rule or the trigger event can be performed.
10. The intelligent linkage method of the equipment of the internet of things according to claim 7, wherein the butt joint module realizes the communication connection between the equipment of the internet of things and the platform of the internet of things in a direct connection mode, a gateway mode or a third-party platform mode.
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CN107864174A (en) * | 2017-07-03 | 2018-03-30 | 华南理工大学 | A kind of rule-based internet of things equipment interlock method |
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