CN111211947A - Internet of things online monitoring service processing system and method - Google Patents
Internet of things online monitoring service processing system and method Download PDFInfo
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Abstract
The invention relates to the field of measurement and monitoring of geological, geotechnical and structural engineering, and provides an Internet of things online monitoring business processing system and method, which are used for realizing remote business processing of field Internet of things monitoring equipment. The invention provides an Internet of things online monitoring business processing system which comprises an application service module, an Internet of things service module, a communication service module and a database, wherein the application service module is used for providing a service for monitoring the online monitoring business; the application service module is connected with the Internet of things service module and the communication service module, the Internet of things service module is connected with the communication service module, the database is connected with the application service module and the Internet of things service module, and the communication service module is connected with the field monitoring equipment. The user can realize the remote service processing of the on-site Internet of things monitoring equipment; the data transmission of the field device is improved in time, the data is visualized, and the device can be controlled remotely.
Description
Technical Field
The invention relates to the field of measurement and monitoring of geological, geotechnical and structural engineering, in particular to an Internet of things online monitoring business processing system and method.
Background
The deformation safety monitoring technology is a typical interdisciplinary and interdisciplinary technology, integrates knowledge of multiple disciplines such as civil engineering, mapping engineering, engineering geology and hydrogeology, geotechnical engineering and computer science, and is widely applied to multiple engineering fields such as geotechnical engineering (foundation pit engineering, slope engineering and soft soil foundation treatment engineering), geological engineering (geological disasters such as landslide, collapse and ground subsidence), structural engineering (buildings, structures, tunnels and the like). The method aims to know the change development process of a monitored object and analyze the safety state (stability) of the monitored object by measuring engineering physical quantities such as displacement, inclination, stress, seepage and the like of engineering objects such as rock and soil masses, structures and the like and surrounding environments of the engineering objects in a multi-period manner, provide safety early warning and provide data support for engineering design and construction.
Although the technical requirements for deformation safety monitoring are different in the above-mentioned engineering fields, the basic method for deformation safety monitoring is general. Currently, common deformation safety monitoring methods include a monitoring and measuring method using instruments and equipment such as a total station, a level, three-dimensional laser scanning and the like, a camera, an unmanned aerial vehicle three-dimensional camera shooting method, a GPS satellite positioning-based measuring method and the like. However, data acquisition and post-processing of these means rely on manual operation, and the method has long field work time, huge field data processing workload and low efficiency, and further cannot meet the requirements of long-term, high monitoring frequency, data analysis, early warning timeliness and the like in part of engineering fields (such as geological disasters). The existing automatic monitoring method based on GNSS positioning has the defects of large volume of front-end equipment, high cost, inflexible deployment (having requirements on top clearance, power supply, communication, lightning protection and the like), insufficient precision, single measurement factor and the like.
At present, a part of automatic monitoring systems based on sensors are arranged, a front-end data acquisition part and a back-end data processing server need to be connected through a private network, and the structure hardware has high cost, large construction engineering quantity and inflexible deployment. In addition, the existing automatic monitoring system generally has different types of self-formed systems of front-end data acquisition equipment and back-end data processing software (the systems cannot be compatible with each other, the integration difficulty is high, and the reliability is poor), and the back-end data processing software cannot realize the business functions of data visualization, linkage early warning, automatic reporting and the like according to the requirements of industrial specifications.
How to realize functions of visualization, linkage alarm and the like of back-end data processing software is a technical problem to be solved urgently.
Disclosure of Invention
The invention provides an Internet of things online monitoring service processing system and method for realizing remote service processing of field Internet of things monitoring equipment.
In order to solve the technical problems, the technical scheme provided by the invention is as follows:
an Internet of things online monitoring business processing system comprises an application service module, an Internet of things service module, a communication service module and a database; the application service module is connected with the Internet of things service module and the communication service module, the Internet of things service module is connected with the communication service module, the database is connected with the application service module and the Internet of things service module, and the communication service module is connected with the field monitoring equipment.
The monitoring object is provided with monitoring equipment, the type of the data transmitted from the monitoring equipment is determined through identification, the received data contains various types of data, the data are split into different types of data, and the data are stored in a database after being stamped with a time stamp; the data stored in the database can be called by a user, and can also be displayed to the user in a visual mode after being processed.
Conditions are provided for realizing data visualization.
Preferably, the application service module comprises an interaction module, a data visualization module, a report generation module, a setting module, an early warning module and a data acquisition module; the interaction module comprises a data query module and a data download module, and the setting module comprises a system configuration module, a system management module and an authority configuration module; the interactive module is connected with the database, the data visualization module is connected with the interactive module, the report generation module is connected with the interactive module, the setting module is connected with the internet of things service module, and the early warning module is connected with the interactive module and the database; the data acquisition module is connected with the Internet of things service module.
Preferably, the service module of the internet of things comprises a receiving module, a data analysis module, a data splitting module, a data identification module, a data processing module and a data entry module, wherein the data analysis module is connected with the communication service module, the data splitting module is connected with the data analysis module, the data identification module is connected with the data splitting module, the data processing module is connected with the data identification module, the data entry module is connected with the data processing module, and the data entry module is connected with the database; the receiving module comprises an instruction receiving module, a packaging module and a first queuing module, the instruction receiving module is connected with the application service module, the instruction receiving module receives an instruction transmitted from the platform, and the packaging module and the first queuing module are connected with the instruction receiving module.
Preferably, the communication service module is connected with the internet of things service module, the communication service module is connected with the field device, the communication service module comprises an instruction issuing module, a data transmission module, a second queuing module and a device connection management module, the data transmission module is connected with the internet of things service module, the second queuing module is connected with the instruction issuing module, the device connection management module is connected with the second queuing module, and the device connection management module is connected with the field device.
Preferably, the service module of the internet of things comprises a polling module, the communication service module comprises a polling command issuing module, and the polling module is connected with the polling command issuing module.
An application service module receives a configuration instruction, a data query instruction and a data display instruction sent by a user interface, and transmits a data acquisition instruction to an Internet of things service module; the application service module modifies the application service module and related configuration options of the Internet of things service module according to the configuration instruction and outputs an application configuration result;
the Internet of things service module packages the data acquisition instruction and transmits the data acquisition instruction to the communication service module;
the communication service module and the field device establish network connection through a network protocol, wherein the network protocol is one or more of TCP, HTTP, MQTT and Websocket, and the physical implementation mode of the network connection includes but is not limited to wired network connection and wireless cellular network; the communication service module receives a data acquisition instruction or an equipment configuration instruction queue issued by the service module of the Internet of things, and issues the instruction to field equipment after repackaging;
the field device returns an instruction execution result to the communication service module, the execution result comprises monitoring data or application configuration result feedback, the communication service module packages the instruction returned by the field device and then transmits the instruction to the internet of things service module, and the internet of things service module analyzes, splits, identifies and calculates data and writes a data processing result into a database.
Preferably, the application service module comprises an interaction module, a data visualization module, a report generation module, a setting module and a data acquisition module; the interaction module comprises a data query module and a data download module, and the setting module comprises a system configuration module, a system management module and an authority configuration module; the interaction module is connected with a database, the data visualization module is connected with the interaction module, the report generation module is connected with the interaction module, the setting module is connected with the internet of things service module, the early warning alarm module is connected with the interaction module and the database, and the data acquisition module is connected with the internet of things service module;
the interactive module acquires instructions, wherein the instructions comprise a data query instruction, a data display instruction, a data acquisition instruction and a configuration instruction, the interactive module transmits the data query instruction and the data display instruction to the data visualization module and the report generation module, the interactive module transmits the data acquisition instruction to the Internet of things service module, and the interactive module transmits the configuration instruction to the setting module;
the data visualization module calls data from a database to perform visualization processing and then outputs visualized data; the report generation module calls data from a database to generate a report according to the data display instruction;
the setting module acquires a configuration instruction, wherein the configuration instruction comprises a system configuration instruction, a system management instruction and a permission configuration instruction, the system configuration module configures a system according to the system configuration instruction, the system management module manages other modules in the system according to the system management instruction, and the permission configuration module configures permission for an accessor according to the permission configuration instruction;
the early warning module calls a data processing result and an early warning threshold value from the database, compares the data processing result with the early warning threshold value, and writes early warning information into the database and feeds the calling early warning information to the interaction module to the user interface if the data processing result reaches or exceeds the early warning threshold value.
Preferably, the service module of the internet of things comprises a receiving module, a data analysis module, a data splitting module, a data identification module, a data processing module and a data entry module, wherein the data analysis module is connected with the communication service, the data splitting module is connected with the data analysis module, the data identification module is connected with the data splitting module, the data processing module is connected with the data identification module, the data entry module is connected with the data processing module, and the data entry module is connected with the database; the receiving module comprises an instruction receiving module, an encapsulation module and a first queuing module, the instruction receiving module is connected with the application service module, the instruction receiving module receives an instruction transmitted from the platform, and the encapsulation module and the first queuing module are connected with the instruction receiving module;
the data analysis module receives original data from the communication service module and analyzes the original data, the data splitting module splits the analyzed data, the data identification module identifies and classifies the split data, then the data processing module respectively calls corresponding data processing algorithms to calculate, and the data entry module enters data processing results into a database;
the instruction receiving module receives the instructions, the packaging module packages the instructions, and the first queuing module sorts the packaged instructions and then sends the packaged instructions.
Preferably, the communication service module is connected with an internet of things service module, the communication service module is connected with field equipment, the communication service module comprises an instruction issuing module, a data transmission module, a second queuing module and an equipment connection management module, the data transmission module is connected with the internet of things service module, the second queuing module is connected with the instruction transmission module, the equipment connection management module is connected with the second queuing module, and the field equipment is connected with the equipment connection management module;
the instruction issuing module receives the instruction and transmits the instruction to the second queuing module, the second queuing module queues the instruction and transmits the instruction to the field device through the device connection management module, the field device transmits data to the data transmission module, and the data transmission module transmits the data to the Internet of things service module.
Preferably, the service module of the internet of things comprises a polling module, the communication service module comprises a polling command issuing module, and the polling module is connected with the polling command issuing module;
the polling module sends a polling instruction, the polling instruction issuing module sends the polling instruction to the field equipment, and the field equipment sequentially transmits data to the communication service module.
Compared with the prior art, the invention has the beneficial effects that: the user can realize the remote service processing of the on-site Internet of things monitoring equipment; the data transmission of the field device is improved in time, the data is visualized, and the device can be controlled remotely.
Drawings
Fig. 1 is a schematic diagram of an internet of things online monitoring service processing system.
Fig. 2 is another schematic diagram of an internet of things online monitoring service processing system.
Detailed Description
The following examples are further illustrative of the present invention and are not intended to be limiting thereof.
Example 1
An Internet of things online monitoring business processing system comprises an application service module, an Internet of things service module, a communication service module and a database; the application service module is connected with the Internet of things service module and the communication service module, the Internet of things service module is connected with the communication service module, the database is connected with the application service module and the Internet of things service module, and the communication service module is connected with the field monitoring equipment. The application service module comprises an interaction module, a data visualization module, a report generation module, a setting module, an early warning module and a data acquisition module; the interaction module comprises a data query module and a data download module, and the setting module comprises a system configuration module, a system management module and an authority configuration module; the interactive module is connected with the database, the data visualization module is connected with the interactive module, the report generation module is connected with the interactive module, the setting module is connected with the internet of things service module, and the early warning module is connected with the interactive module and the database; the data acquisition module is connected with the Internet of things service module. The Internet of things service module comprises a receiving module, a data analysis module, a data splitting module, a data identification module, a data processing module and a data entry module, wherein the data analysis module is connected with the communication service module, the data splitting module is connected with the data analysis module, the data identification module is connected with the data splitting module, the data processing module is connected with the data identification module, the data entry module is connected with the data processing module, and the data entry module is connected with the database; the receiving module comprises an instruction receiving module, a packaging module and a first queuing module, the instruction receiving module is connected with the application service module, the instruction receiving module receives an instruction transmitted from the platform, and the packaging module and the first queuing module are connected with the instruction receiving module. The communication service module is connected with the Internet of things service module, the communication service module is connected with field equipment, the communication service module comprises an instruction issuing module, a data transmission module, a second queuing module and an equipment connection management module, the data transmission module is connected with the Internet of things service module, the second queuing module is connected with the instruction issuing module, the equipment connection management module is connected with the second queuing module, and the equipment connection management module is connected with the field equipment. The service module of the internet of things comprises a polling module, the communication service module comprises a polling command issuing module, and the polling module is connected with the polling command issuing module.
The monitoring object is provided with monitoring equipment, the type of the data transmitted from the monitoring equipment is determined through identification, the received data contains various types of data, the data are split into different types of data, and the data are stored in a database after being stamped with a time stamp; the data stored in the database can be called by a user, and can also be displayed to the user in a visual mode after being processed. Conditions are provided for realizing data visualization.
Example 2
An Internet of things online monitoring business processing system comprises an application service module, an Internet of things service module, a communication service module and a database; the application service module is connected with the Internet of things service module and the communication service module, the Internet of things service module is connected with the communication service module, the database is connected with the application service module and the Internet of things service module, and the communication service module is connected with the field monitoring equipment.
Example 3
A business processing method for online monitoring of the Internet of things comprises the following steps:
the application service module receives a configuration instruction, a data query instruction and a data display instruction sent by a user interface, and transmits a data acquisition instruction to the Internet of things service module; the application service module modifies the application service module and related configuration options of the Internet of things service module according to the configuration instruction and outputs an application configuration result;
the Internet of things service module packages the data acquisition instruction and transmits the data acquisition instruction to the communication service module;
the communication service module and the field device establish network connection through a network protocol, wherein the network protocol is one or more of TCP, HTTP, MQTT and Websocket, and the physical implementation mode of the network connection includes but is not limited to wired network connection and wireless cellular network; the communication service module receives a data acquisition instruction or an equipment configuration instruction queue issued by the service module of the Internet of things, and issues the instruction to field equipment after repackaging;
the field device returns an instruction execution result to the communication service module, the execution result comprises monitoring data or application configuration result feedback, the communication service module packages the instruction returned by the field device and then transmits the instruction to the internet of things service module, and the internet of things service module analyzes, splits, identifies and calculates data and writes a data processing result into a database. The application service module comprises an interaction module, a data visualization module, a report generation module, a setting module and a data acquisition module; the interaction module comprises a data query module and a data download module, and the setting module comprises a system configuration module, a system management module and an authority configuration module; the interaction module is connected with a database, the data visualization module is connected with the interaction module, the report generation module is connected with the interaction module, the setting module is connected with the internet of things service module, the early warning alarm module is connected with the interaction module and the database, and the data acquisition module is connected with the internet of things service module;
the interactive module acquires instructions, wherein the instructions comprise a data query instruction, a data display instruction, a data acquisition instruction and a configuration instruction, the interactive module transmits the data query instruction and the data display instruction to the data visualization module and the report generation module, the interactive module transmits the data acquisition instruction to the Internet of things service module, and the interactive module transmits the configuration instruction to the setting module;
the data visualization module calls data from a database to perform visualization processing and then outputs visualized data; the report generation module calls data from a database to generate a report according to the data display instruction;
the setting module acquires a configuration instruction, wherein the configuration instruction comprises a system configuration instruction, a system management instruction and a permission configuration instruction, the system configuration module configures a system according to the system configuration instruction, the system management module manages other modules in the system according to the system management instruction, and the permission configuration module configures permission for an accessor according to the permission configuration instruction;
the early warning module calls a data processing result and an early warning threshold value from the database, compares the data processing result with the early warning threshold value, and writes early warning information into the database and feeds the calling early warning information to the interaction module to the user interface if the data processing result reaches or exceeds the early warning threshold value. The Internet of things service module comprises a receiving module, a data analysis module, a data splitting module, a data identification module, a data processing module and a data entry module, wherein the data analysis module is connected with a communication service, the data splitting module is connected with the data analysis module, the data identification module is connected with the data splitting module, the data processing module is connected with the data identification module, the data entry module is connected with the data processing module, and the data entry module is connected with a database; the receiving module comprises an instruction receiving module, an encapsulation module and a first queuing module, the instruction receiving module is connected with the application service module, the instruction receiving module receives an instruction transmitted from the platform, and the encapsulation module and the first queuing module are connected with the instruction receiving module;
the data analysis module receives original data from the communication service module and analyzes the original data, the data splitting module splits the analyzed data, the data identification module identifies and classifies the split data, then the data processing module respectively calls corresponding data processing algorithms to calculate, and the data entry module enters data processing results into a database;
the instruction receiving module receives the instructions, the packaging module packages the instructions, and the first queuing module sorts the packaged instructions and then sends the packaged instructions. The communication service module is connected with the Internet of things service module, the communication service module is connected with field equipment, the communication service module comprises an instruction issuing module, a data transmission module, a second queuing module and an equipment connection management module, the data transmission module is connected with the Internet of things service module, the second queuing module is connected with the instruction transmission module, the equipment connection management module is connected with the second queuing module, and the field equipment is connected with the equipment connection management module;
the instruction issuing module receives the instruction and transmits the instruction to the second queuing module, the second queuing module queues the instruction and transmits the instruction to the field device through the device connection management module, the field device transmits data to the data transmission module, and the data transmission module transmits the data to the Internet of things service module. The service module of the Internet of things comprises a polling module, the communication service module comprises a polling command issuing module, and the polling module is connected with the polling command issuing module;
the polling module sends a polling instruction, the polling instruction issuing module sends the polling instruction to the field equipment, and the field equipment sequentially transmits data to the communication service module. And the field device transmits the data to the data transmission module through the device connection management module.
Example 4
An Internet of things online monitoring business processing method comprises the following steps:
the application service module receives a configuration instruction, a data query instruction and a data display instruction sent by a user interface, and transmits a data acquisition instruction to the Internet of things service module; the application service module modifies the application service module and related configuration options of the Internet of things service module according to the configuration instruction and outputs an application configuration result;
the Internet of things service module packages the data acquisition instruction and transmits the data acquisition instruction to the communication service module;
the communication service module and the field device establish network connection through a network protocol, wherein the network protocol is one or more of TCP, HTTP, MQTT and Websocket, and the physical implementation mode of the network connection includes but is not limited to wired network connection and wireless cellular network; the communication service module receives a data acquisition instruction or an equipment configuration instruction queue issued by the service module of the Internet of things, and issues the instruction to field equipment after repackaging;
the field device returns an instruction execution result to the communication service module, the execution result comprises monitoring data or application configuration result feedback, the communication service module packages the execution result returned by the field device and then transmits the result to the internet of things service module, and the internet of things service module analyzes, splits, identifies and calculates data and writes the data processing result into a database.
The above detailed description is specific to possible embodiments of the present invention, and the above embodiments are not intended to limit the scope of the present invention, and all equivalent implementations or modifications that do not depart from the scope of the present invention should be included in the present claims.
Claims (10)
1. An Internet of things online monitoring business processing system is characterized by comprising an application service module, an Internet of things service module, a communication service module and a database; the application service module is connected with the Internet of things service module and the communication service module, the Internet of things service module is connected with the communication service module, the database is connected with the application service module and the Internet of things service module, and the communication service module is connected with the field monitoring equipment.
2. The system for processing the online monitoring business of the internet of things according to claim 1, wherein the application service module comprises an interaction module, a data visualization module, a report generation module, a setting module, an early warning module and a data acquisition module; the interaction module comprises a data query module and a data download module, and the setting module comprises a system configuration module, a system management module and an authority configuration module; the interactive module is connected with the database, the data visualization module is connected with the interactive module, the report generation module is connected with the interactive module, the setting module is connected with the internet of things service module, and the early warning module is connected with the interactive module and the database; the data acquisition module is connected with the Internet of things service module.
3. The system for processing the online monitoring service of the internet of things as claimed in claim 1, wherein the service module of the internet of things comprises a receiving module, a data parsing module, a data splitting module, a data identification module, a data processing module and a data entry module, the data parsing module is connected with the communication service module, the data splitting module is connected with the data parsing module, the data identification module is connected with the data splitting module, the data processing module is connected with the data identification module, the data entry module is connected with the data processing module, and the data entry module is connected with a database; the receiving module comprises an instruction receiving module, a packaging module and a first queuing module, the instruction receiving module is connected with the application service module, the instruction receiving module receives an instruction transmitted from the platform, and the packaging module and the first queuing module are connected with the instruction receiving module.
4. The system of claim 1, wherein the communication service module is connected to an internet of things service module, the communication service module is connected to a field device, the communication service module comprises an instruction issuing module, a data transmission module, a second queuing module and a device connection management module, the data transmission module is connected to the internet of things service module, the second queuing module is connected to the instruction issuing module, the device connection management module is connected to the second queuing module, and the device connection management module is connected to the field device.
5. The system for processing the online monitoring service of the internet of things as claimed in claim 1, wherein the service module of the internet of things comprises a polling module, the communication service module comprises a polling command issuing module, and the polling module is connected with the polling command issuing module.
6. An Internet of things online monitoring business processing method is characterized by comprising the following steps:
the application service module receives a configuration instruction, a data query instruction and a data display instruction sent by a user interface, and transmits a data acquisition instruction to the Internet of things service module; the application service module modifies the application service module and related configuration options of the Internet of things service module according to the configuration instruction and outputs an application configuration result;
the Internet of things service module packages the data acquisition instruction and transmits the data acquisition instruction to the communication service module;
the communication service module and the field device establish network connection through a network protocol, wherein the network protocol is one or more of TCP, HTTP, MQTT and Websocket, and the physical implementation mode of the network connection includes but is not limited to wired network connection and wireless cellular network; the communication service module receives a data acquisition instruction or an equipment configuration instruction queue issued by the service module of the Internet of things, and issues the instruction to field equipment after repackaging;
the field device returns an instruction execution result to the communication service module, the execution result comprises monitoring data or application configuration result feedback, the communication service module packages the instruction returned by the field device and then transmits the instruction to the internet of things service module, and the internet of things service module analyzes, splits, identifies and calculates data and writes a data processing result into a database.
7. The processing method of the online monitoring business of the internet of things according to claim 6, wherein the application service module comprises an interaction module, a data visualization module, a report generation module, a setting module and a data acquisition module; the interaction module comprises a data query module and a data download module, and the setting module comprises a system configuration module, a system management module and an authority configuration module; the interaction module is connected with a database, the data visualization module is connected with the interaction module, the report generation module is connected with the interaction module, the setting module is connected with the internet of things service module, the early warning alarm module is connected with the interaction module and the database, and the data acquisition module is connected with the internet of things service module;
the interactive module acquires instructions, wherein the instructions comprise a data query instruction, a data display instruction, a data acquisition instruction and a configuration instruction, the interactive module transmits the data query instruction and the data display instruction to the data visualization module and the report generation module, the interactive module transmits the data acquisition instruction to the Internet of things service module, and the interactive module transmits the configuration instruction to the setting module;
the data visualization module calls data from a database to perform visualization processing and then outputs visualized data; the report generation module calls data from a database to generate a report according to the data display instruction;
the setting module acquires a configuration instruction, wherein the configuration instruction comprises a system configuration instruction, a system management instruction and a permission configuration instruction, the system configuration module configures a system according to the system configuration instruction, the system management module manages other modules in the system according to the system management instruction, and the permission configuration module configures permission for an accessor according to the permission configuration instruction;
the early warning module calls a data processing result and an early warning threshold value from the database, compares the data processing result with the early warning threshold value, and writes early warning information into the database and feeds the calling early warning information to the interaction module to the user interface if the data processing result reaches or exceeds the early warning threshold value.
8. The method for processing the online monitoring service of the internet of things as claimed in claim 6, wherein the service module of the internet of things comprises a receiving module, a data parsing module, a data splitting module, a data identification module, a data processing module and a data entry module, the data parsing module is connected with a communication service, the data splitting module is connected with the data parsing module, the data identification module is connected with the data splitting module, the data processing module is connected with the data identification module, the data entry module is connected with the data processing module, and the data entry module is connected with a database; the receiving module comprises an instruction receiving module, an encapsulation module and a first queuing module, the instruction receiving module is connected with the application service module, the instruction receiving module receives an instruction transmitted from the platform, and the encapsulation module and the first queuing module are connected with the instruction receiving module;
the data analysis module receives original data from the communication service module and analyzes the original data, the data splitting module splits the analyzed data, the data identification module identifies and classifies the split data, then the data processing module respectively calls corresponding data processing algorithms to calculate, and the data entry module enters data processing results into a database;
the instruction receiving module receives the instructions, the packaging module packages the instructions, and the first queuing module sorts the packaged instructions and then sends the packaged instructions.
9. The method for processing the online monitoring service of the internet of things as claimed in claim 6, wherein the communication service module is connected with an internet of things service module, the communication service module is connected with a field device, the communication service module comprises an instruction issuing module, a data transmission module, a second queuing module and a device connection management module, the data transmission module is connected with the internet of things service module, the second queuing module is connected with the instruction transmission module, the device connection management module is connected with the second queuing module, and the field device is connected with a device connection management module;
the instruction issuing module receives the instruction and transmits the instruction to the second queuing module, the second queuing module queues the instruction and transmits the instruction to the field device through the device connection management module, the field device transmits data to the data transmission module, and the data transmission module transmits the data to the Internet of things service module.
10. The method for processing the online monitoring service of the internet of things according to claim 6, wherein the service module of the internet of things comprises a polling module, the communication service module comprises a polling command issuing module, and the polling module is connected with the polling command issuing module;
the polling module sends a polling instruction, the polling instruction issuing module sends the polling instruction to the field equipment, and the field equipment sequentially transmits data to the communication service module.
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112182086A (en) * | 2020-09-29 | 2021-01-05 | 华能新能源股份有限公司 | Data transmission interaction system and method for rear-end interface of meteorological data warehouse |
Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102890142A (en) * | 2012-09-20 | 2013-01-23 | 华东理工大学 | Online lake water quality monitoring system based on internet of things |
CN103997532A (en) * | 2014-05-30 | 2014-08-20 | 长沙瑞和数码科技有限公司 | Agriculture internet-of-things edge middleware system |
CN106941486A (en) * | 2017-02-17 | 2017-07-11 | 西安电子科技大学 | A kind of universal Internet of Things monitor control system and control method |
CN107844149A (en) * | 2017-09-02 | 2018-03-27 | 孟旭 | A kind of greenhouse intelligent detecting system based on Internet of Things |
CN108347711A (en) * | 2018-01-17 | 2018-07-31 | 苏州金蒲芦物联网技术有限公司 | A kind of low power-consumption intelligent agricultural data acquisition system realized based on NB-IoT |
CN108612137A (en) * | 2018-06-19 | 2018-10-02 | 广东水利电力职业技术学院(广东省水利电力技工学校) | A kind of foundation pit synthesis on-line monitoring cloud platform system based on Internet of Things big data |
-
2020
- 2020-01-15 CN CN202010043095.0A patent/CN111211947A/en active Pending
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN102890142A (en) * | 2012-09-20 | 2013-01-23 | 华东理工大学 | Online lake water quality monitoring system based on internet of things |
CN103997532A (en) * | 2014-05-30 | 2014-08-20 | 长沙瑞和数码科技有限公司 | Agriculture internet-of-things edge middleware system |
CN106941486A (en) * | 2017-02-17 | 2017-07-11 | 西安电子科技大学 | A kind of universal Internet of Things monitor control system and control method |
CN107844149A (en) * | 2017-09-02 | 2018-03-27 | 孟旭 | A kind of greenhouse intelligent detecting system based on Internet of Things |
CN108347711A (en) * | 2018-01-17 | 2018-07-31 | 苏州金蒲芦物联网技术有限公司 | A kind of low power-consumption intelligent agricultural data acquisition system realized based on NB-IoT |
CN108612137A (en) * | 2018-06-19 | 2018-10-02 | 广东水利电力职业技术学院(广东省水利电力技工学校) | A kind of foundation pit synthesis on-line monitoring cloud platform system based on Internet of Things big data |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112182086A (en) * | 2020-09-29 | 2021-01-05 | 华能新能源股份有限公司 | Data transmission interaction system and method for rear-end interface of meteorological data warehouse |
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