CN112882433A

CN112882433A - Multisource Internet of things monitoring cloud platform

Info

Publication number: CN112882433A
Application number: CN202110312100.8A
Authority: CN
Inventors: 程勇; 马要纲; 孙建峰; 赖依曼; 刘浩; 朱飞飞; 苏昭阳; 文龙; 张�杰; 邱坤淼
Original assignee: Xuchang Xj Low Voltage Electric Co ltd
Current assignee: Xuchang Xj Low Voltage Electric Co ltd
Priority date: 2021-03-24
Filing date: 2021-03-24
Publication date: 2021-06-01

Abstract

The invention discloses a multi-source Internet of things monitoring cloud platform, and belongs to the technical field of Internet of things monitoring platforms. A multi-source Internet of things monitoring cloud platform comprises a service decision and processing layer: providing data display, control command and system management functions; the internet of things service layer: providing functions of data analysis, object storage, log retrieval, module configuration and command issuing; the transmission layer of the Internet of things: providing data transmission and network security guarantee functions; edge calculation and data reception layer: providing device data reception and processing functions. The invention meets the requirements of using scenes of different industries and realizes that one platform bears a plurality of project management; by means of the modern Internet of things technology, various devices are accessed to a platform, various types of information are collected, and original data are fully acquired; the self-adaptive access of the data at the equipment end, the unification of the data analysis format and the data interconnection and intercommunication are realized.

Description

Multisource Internet of things monitoring cloud platform

Technical Field

The invention relates to the technical field of Internet of things monitoring platforms, in particular to a multi-source Internet of things monitoring cloud platform.

Background

At present, the energy management industry is mainly extensive management, a perfect energy information management tool is lacked, and even the situation of manually copying data on site exists. The operation and maintenance personnel are on site and on duty, the operation and maintenance experience cannot be inherited, the department communication efficiency is low, the data utilization rate is low, data is rambled, faults cannot be predicted in advance, accurate analysis and real-time response cannot be achieved, and the like.

Energy management platforms existing in the market are mostly single-medium and single-data energy platforms, the difficulty and the fault point of overall energy management cannot be solved, decision support data are lacked, reliable reference data cannot be provided for energy conservation assessment, an effective enterprise energy efficiency assessment index system is lacked, and energy consumption management measures cannot fall to the ground. Meanwhile, data acquisition can only realize three remote (remote measurement, remote signaling and remote pulse) functions, and cannot realize remote regulation, remote control and remote vision in the face of a large amount of energy equipment.

Disclosure of Invention

The invention aims to solve the problems that an energy management platform in the prior art can only process single energy data, data acquisition information is insufficient, and efficient data display is lacked, and provides a multi-source Internet of things monitoring cloud platform.

In order to achieve the purpose, the invention adopts the following technical scheme:

a multi-source Internet of things monitoring cloud platform comprises:

and a service decision and processing layer: providing data display, control command and system management functions;

the internet of things service layer: providing functions of data analysis, object storage, log retrieval, module configuration and command issuing;

the transmission layer of the Internet of things: providing data transmission and network security guarantee functions;

edge calculation and data reception layer: providing device data receiving and processing functions;

the edge computing and data receiving layer is connected to the Internet of things service layer through the Internet of things transmission layer; the internet of things service layer analyzes and processes the data, and transmits the data to the business decision and processing layer for display; and the business decision and processing layer inputs a control command and a system management instruction, and issues the control command and the system management instruction to the Internet of things service layer, and the Internet of things service layer processes the business decision and processing layer and issues a command to the edge calculation and data receiving layer.

Preferably, the edge calculation and data receiving layer is connected with a plurality of devices, including water, electricity, gas and warm devices.

Preferably, the equipment connected with the edge calculation layer and the data receiving layer is provided with a remote measurement, remote signaling, remote pulse, remote regulation, remote control and remote vision functional module.

Preferably, the remote-viewing function module adopts a plurality of camera devices arranged in an equipment installation environment.

Preferably, the edge calculation and data reception layer is provided with a plurality of data connection modes, including OneNet, restful api, communication manager, and other third party platforms.

Preferably, the service layer of the internet of things separates independent channels of uplink data and downlink data, and the transmission layer of the internet of things keeps long connection.

Preferably, the data analysis function of the IOT service layer provides a plurality of protocol analyses, including IEC-101, IEC-102, IEC-103, IEC-104, Modbus-RTU, Modbus-TCP, MQTT and DLT645, and analyzes a plurality of protocol data to a data source with a uniform format.

Preferably, the module configuration of the internet of things service layer comprises conventional configuration, data source configuration, remote view configuration, monitoring configuration, alarm configuration, statistical configuration and operation and maintenance configuration.

Preferably, the object storage function of the internet of things service layer adopts an HBase database.

Compared with the prior art, the invention provides a multi-source Internet of things monitoring cloud platform, which has the following beneficial effects:

1. according to the invention, through the configuration of data display and the interface grid, the combination of free collocation and combination is realized, the interface display configuration function with high freedom, good openness, rich functional modules and basic elements are provided, the interface is visual, the operation is convenient, the requirements of different industries on use scenes are met, and the management of multiple projects carried by one platform is realized.

2. According to the invention, multiple devices are accessed to the platform through the Internet of things connection part by relying on the modern Internet of things technology, and multiple types of information are acquired to fully acquire original data; the Internet of things service layer separates the independent channels of the uplink data and the downlink data, and solves the problems of collision and frame loss of the uplink data and the downlink data; long connection is adopted, so that remote control, remote adjustment and remote viewing functions are realized, and the problem of insufficient information acquisition is solved; and the problem of high-performance and expensive physical servers does not need to be configured; and the reliability and the stability of the platform are improved by adopting load balance.

3. According to the invention, by adopting the design idea of 'model driven information fusion, one-time acquisition sharing and data communication service cooperation', multiple data sources are compatible, and an active and passive data source access and analysis mechanism is supported; on the basis of various protocols, an equipment data model of a data dictionary mechanism is constructed, so that self-adaptive access of equipment side data is realized; the data analysis format is unified, the data interconnection and intercommunication are realized, the data acquisition, analysis and intelligent operation and maintenance are realized, and a mainstream informatization technical means is combined to externally provide 'platform bearing, integrated linkage and one-stop service'; and performing real-time analysis and application and deep mining on the data, and providing a data sharing and fusing interface for other data platforms.

4. The invention realizes the integration of the concurrency of tens of millions of devices, adopts an open platform with integrated grid parallel computing, storage and application core capabilities, provides far-end and near-end services through a virtualization technology, and further improves the reliability and high performance of the platform.

5. According to the invention, an HBase database is adopted, the Internet and terminal equipment thereof are effectively utilized, automatic, intelligent, batch and remote routing inspection is realized through big data and artificial intelligence analysis decision, faults are automatically traced, a client side and information reminding are automatically reported, operation and maintenance are automatically distributed, a routing inspection report is automatically generated, and a report is automatically generated; the intelligent and standardized level of operation and maintenance work is comprehensively improved, and a full-chain intelligent operation and maintenance system is established.

6. The invention improves the applicability and convenience through a multi-client form.

The device has the advantages that the parts which are not related in the device are the same as or can be realized by adopting the prior art, and the device is a comprehensive cloud platform which integrates key technologies such as a modern communication technology, remote control, intelligent operation and maintenance management, equipment monitoring, analysis, decision support and the like; the applicability and the convenience are improved by a multi-client form; the configuration and the interface grid displayed by data are freely matched and combined, so that the system has the advantages of high freedom, good openness, abundant functional modules, basic elements and the like, has a configuration display function on an interface, is intuitive in interface and convenient and fast to operate, meets the requirements of using scenes of different industries, and realizes that one platform bears a plurality of project management. The internet of things connection part connects various devices into the platform by means of modern internet of things technology, collects various types of information and fully acquires original data. The Internet of things service layer separates the independent channels of the uplink data and the downlink data, and solves the problems of collision and frame loss of the uplink data and the downlink data; long connection is adopted, so that remote control, remote adjustment and remote viewing functions are realized, and the problem of insufficient information acquisition is solved; and the problem of high-performance and expensive physical servers does not need to be configured; and the reliability and the stability of the platform are improved by adopting load balance. The design idea of model-driven information fusion, one-time acquisition and sharing and data communication service cooperation is adopted, multiple data sources are compatible, active and passive data source access and analysis mechanisms are supported, and an equipment data model of a data dictionary mechanism is constructed on the basis of multiple protocols, so that self-adaptive access of equipment end data is realized, and flexible real-time access of terminal equipment data is realized. The data analysis format is unified, the data interconnection and intercommunication are realized, the data acquisition, analysis and intelligent operation and maintenance are realized, and a platform bearing, integrated linkage and one-stop service are provided for the outside by combining the mainstream informatization technical means. And performing real-time analysis and application and deep mining on the data, and providing a data sharing and fusing interface for other data platforms. The platform realizes the integration concurrency of tens of millions of devices, adopts an open platform with grid parallel computing, storage and application core capabilities, provides far-end and near-end services through a virtualization technology, and further improves the reliability and high performance of the platform. By adopting an HBase database, the Internet and terminal equipment thereof are effectively utilized, automatic, intelligent, batch and remote inspection is realized through big data and artificial intelligence analysis decision, the fault is automatically traced, a client side and information reminding are automatically reported, operation and maintenance are automatically allocated, an inspection report is automatically generated, a report form is automatically generated, the intelligent and standardized level of operation and maintenance work is comprehensively improved, and a full-chain intelligent operation and maintenance system is established.

Drawings

FIG. 1 is a block diagram of the present invention;

fig. 2 is a block diagram of a module configuration.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-2, a multi-source internet of things monitoring cloud platform includes:

and a service decision and processing layer: providing data display, control command and system management functions; the data display, remote regulation and remote command issuing, system configuration, project and user management work of remote measurement, remote signaling, remote pulse and remote vision are realized;

the edge calculation and data receiving layer is connected to the Internet of things service layer through the Internet of things transmission layer, and the obtained data are transmitted to the Internet of things service layer; the Internet of things service layer analyzes and processes the data, and transmits the data to the business decision and processing layer for display; the business decision and processing layer inputs a control command and a system management command, and issues the control command and the system management command to the Internet of things service layer, the Internet of things service layer processes the command and issues the command to the edge calculation and data receiving layer, and the edge calculation and data receiving layer responds to the command and executes the command.

The data display of the business decision and processing layer is carried out by utilizing each client, the client comprises a control center display screen, a webpage end, a mobile end and the like, and the applicability and the convenience are improved in a multi-client mode; in the display process, a single interface is displayed in a grid form, a configuration mode is adopted in a grid, basic elements can be selected and matched at will, and the whole interface adopts a grid combination mode and can be matched according to requirements; the method has the advantages of high freedom interface display configuration function, good openness, rich functional modules and basic elements and the like. An operator performs configuration of a single page by using basic elements according to the item type, and then randomly collocates and combines configuration interfaces to form a flexible large screen in a grid form and display various data; the interface is visual, the operation is convenient, and the management requirements of different industries are met; the platform can be used for bearing a plurality of project management, and the problems that a plurality of systems need to be managed independently and data cannot be interconnected and intercommunicated and displayed respectively are solved.

The edge calculation and data receiving layer is connected with a plurality of devices including various devices such as water, electricity, gas and heat; the equipment connected with the edge calculation and data receiving layer is provided with a remote measurement, remote signaling, remote pulse, remote regulation, remote control and remote viewing function module; various devices are selected according to the requirements of the matched industry, and are matched with the functional modules for access, so that the device is suitable for various industry requirements. Carry on functional module through polymorphic type equipment, constitute global monitoring, management and control automation, security protection control, energy efficiency analysis management, intelligence fortune dimension, equipment account management that realize water, electricity, gas, warm etc. the bottom equipment that the multidimension degree is as an organic whole is connected, provides basic data for multisource thing networking control cloud platform.

The remote vision functional module adopts a plurality of camera devices arranged in the equipment installation environment, and the camera devices are installed according to the specific installation environment and the image acquisition requirement of the equipment, so that information can be fully and efficiently acquired.

The edge computing and data receiving layer is provided with a plurality of data connection modes, including a OneNet, a restful API, a communication manager and other third party platforms, and the data connection modes are set according to specific application requirements so as to match with an operation environment and access the cloud platform.

The Internet of things service layer separates independent channels of uplink data and downlink data, and the transmission layer of the Internet of things keeps long connection; by adopting a software defined network technology and a software defined service technology, the problems of conflict between uplink data and downlink data and frame loss are solved by independently using the uplink data and the downlink data; long connection is adopted, so that remote control, remote adjustment and remote viewing functions are realized, and the problem of insufficient information acquisition is solved; moreover, long connection with the equipment is realized through the intermediate transfer Internet of things OneNet, so that the problem that a high-performance and expensive physical server needs to be configured for direct connection with the equipment is solved; and the reliability and the stability of the platform are improved by adopting load balance.

The specific implementation of the independent channel separation of the uplink data and the downlink data is as follows:

the Internet of things service layer sets Internet of things services AMS-Data-serviceYK and AMS-Data-serviceYC; the internet of things service AMS-Data-serviceYK processes downlink remote control and remote regulation, and the internet of things service AMS-Data-serviceYC processes uplink remote control, remote signalling and remote pulse.

The data analysis function of the Internet of things service layer provides a plurality of protocol analyses, including IEC-101, IEC-102, IEC-103, IEC-104, Modbus-RTU, Modbus-TCP, MQTT and DLT 645. Many terminal devices are accessed, and often need to be provided by multiple manufacturers, and different devices of each manufacturer have different specifications, and data formats are inconsistent, so that full analysis cannot be directly performed. By combining the design idea of 'model driven information fusion', the information fusion scheme of a data dictionary mechanism is provided for the difficult problems of multiple energy protocols and complex data analysis, and the self-adaptive adaptation from 'raw' data to 'cooked' data of the equipment is realized; identifying original data by constructing a data dictionary fusing a plurality of protocol analysis schemes, and selecting a corresponding analysis mode to realize adaptation; the problem of traditional management platform can not access multiple data source, can not manage multiple energy medium and equipment such as water, electricity, gas, warm simultaneously is solved. Meanwhile, the access equipment can be preconfigured, the type of the access equipment, the protocol of the access equipment and the number of the access equipment are selected, the burden of data format identification adaptation is reduced, the complex data analysis work can be solved, and the data utilization becomes more efficient.

And the data analysis function of the Internet of things service layer analyzes a plurality of protocol data to a data source with a uniform format. The design idea of 'one-time acquisition and sharing' is combined and analyzed into the design of a unified data source format, so that the binding and data intercommunication of various services, such as page configuration, statistical analysis, alarm management and the like, can be realized; the idea of 'data through service cooperation' is combined, and a data-driven event and event-driven service mode is adopted to realize the cooperative operation of multiple services; if the abnormal data of the equipment is collected, the abnormal data drives the alarm service to be generated, and the alarm information is sent to the operation and maintenance to generate the operation and maintenance service.

By adopting a design idea of 'model driven information fusion, primary acquisition sharing and data communication service cooperation', equipment such as water, electricity, gas and heat is accessed to a platform, an edge calculation and data receiving layer realizes data acquisition, an internet of things service layer realizes data processing and analysis, data among various services and modules are interconnected and intercommunicated, and operation and maintenance management is carried out by utilizing data analysis pre-judgment equipment; the platform bearing, the integrated linkage and the one-stop service are realized by combining the mainstream informatization technical means.

The module configuration of the IOT service layer comprises conventional configuration, data source configuration, remote vision configuration, monitoring configuration, alarm configuration, statistic configuration and operation and maintenance configuration; and the specific functions required by the user are realized in a flexible configuration mode. Conventional arrangements configure the name of the item, the type of the item, the map location of the item, the brief description of the item, etc. to facilitate rapid and accurate identification of the item. And configuring a data source, namely configuring the acquired terminal equipment, the gateway of the Internet of things, a communication protocol and a data format. And remote vision configuration, namely configuring a video acquisition mode, interface display and holder control. And monitoring configuration, namely configuring interface configuration and displaying the interface configuration in combination with data display. And alarm configuration, namely configuring the alarm information of the switching value and the analog value. And statistical configuration, namely configuring statistical analysis and common reports. And operation and maintenance configuration, namely configuring operation and maintenance logic and operation and maintenance modes. Through various information configurations, stable operation, unified management and control and efficient processing of the platform are achieved.

And an object storage function of the Internet of things service layer adopts an HBase database, and data storage support is provided for the HBase database. The method comprises the steps that a Hadoop distributed file system for storing a large amount of data and an HBase database for modeling by referring to Bigtable big data of Google company are adopted, the Hadoop system provides the HBase for the distributed file storage system, and meanwhile, a MapReduce component can directly access the HBase to perform distributed computation, so that a cloud platform can accommodate 10000 projects, each project can be accessed to 1000 devices, and the merging concurrency of devices in the level of ten million is achieved; meanwhile, the computing service of the internet of things service layer adopts an open platform with grid parallel computing, storage and application core capabilities integrated, provides far-end and near-end services through a virtualization technology, and further improves the reliability and high performance of the platform.

According to the invention, a traditional single-energy monitoring function is extended and evolved, and the intelligent centralized cloud platform is developed from a traditional independent local system mainly based on a data acquisition and monitoring (SCADA) function to an intelligent centralized cloud platform based on big data and realizing data interconnection and intercommunication; the method comprises the steps of checking the state of running data equipment and environmental video in real time, comprehensively sensing the equipment and environmental data, and receiving abnormal alarm information by a mobile terminal at any time and any place; the device management and operation and maintenance are enabled to realize interconnection, intellectualization, mobility and visualization.

The invention is a comprehensive cloud platform integrating the key technologies of modern communication technology, remote control, intelligent operation and maintenance management, equipment monitoring, analysis, decision support and the like; the applicability and the convenience are improved by a multi-client form; the configuration and the interface grid displayed by data are freely matched and combined, so that the system has the advantages of high freedom, good openness, abundant functional modules, basic elements and the like, has a configuration display function on an interface, is intuitive in interface and convenient and fast to operate, meets the requirements of using scenes of different industries, and realizes that one platform bears a plurality of project management. The internet of things connection part connects various devices into the platform by means of modern internet of things technology, collects various types of information and fully acquires original data. The Internet of things service layer separates the independent channels of the uplink data and the downlink data, and solves the problems of collision and frame loss of the uplink data and the downlink data; long connection is adopted, so that remote control, remote adjustment and remote viewing functions are realized, and the problem of insufficient information acquisition is solved; and the problem of high-performance and expensive physical servers does not need to be configured; and the reliability and the stability of the platform are improved by adopting load balance. The design idea of model-driven information fusion, one-time acquisition and sharing and data communication service cooperation is adopted, multiple data sources are compatible, active and passive data source access and analysis mechanisms are supported, and an equipment data model of a data dictionary mechanism is constructed on the basis of multiple protocols, so that self-adaptive access of equipment end data is realized, and flexible real-time access of terminal equipment data is realized. The data analysis format is unified, the data interconnection and intercommunication are realized, the data acquisition, analysis and intelligent operation and maintenance are realized, and a platform bearing, integrated linkage and one-stop service are provided for the outside by combining the mainstream informatization technical means. And performing real-time analysis and application and deep mining on the data, and providing a data sharing and fusing interface for other data platforms. The platform realizes the integration concurrency of tens of millions of devices, adopts an open platform with grid parallel computing, storage and application core capabilities, provides far-end and near-end services through a virtualization technology, and further improves the reliability and high performance of the platform. By adopting an HBase database, the Internet and terminal equipment thereof are effectively utilized, automatic, intelligent, batch and remote inspection is realized through big data and artificial intelligence analysis decision, the fault is automatically traced, a client side and information reminding are automatically reported, operation and maintenance are automatically allocated, an inspection report is automatically generated, a report form is automatically generated, the intelligent and standardized level of operation and maintenance work is comprehensively improved, and a full-chain intelligent operation and maintenance system is established.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The utility model provides a multisource thing networking control cloud platform which characterized in that includes:

2. The multi-source internet of things monitoring cloud platform of claim 1, wherein the edge computing and data receiving layer is connected with a plurality of devices including water, electricity, gas and warm devices.

3. The multi-source internet of things monitoring cloud platform of claim 2, wherein the equipment connected with the edge computing and data receiving layer is provided with remote measuring, remote signaling, remote pulse, remote regulation, remote control and remote vision functional modules.

4. The multi-source Internet of things monitoring cloud platform of claim 3, wherein the remote vision function module employs a plurality of camera devices arranged in an equipment installation environment.

5. The multi-source internet of things monitoring cloud platform of claim 1, wherein the edge computing and data receiving layer is provided with a plurality of data connection modes, including OneNet, restful api, communication manager, and other third party platforms.

6. The multi-source internet of things monitoring cloud platform of claim 1, wherein the internet of things service layer performs independent channel separation on uplink data and downlink data, and the internet of things transmission layer maintains long connection.

7. The multi-source Internet of things monitoring cloud platform according to claim 1, wherein the data analysis function of the Internet of things service layer provides a plurality of protocol analyses, including IEC-101, IEC-102, IEC-103, IEC-104, Modbus-RTU, Modbus-TCP, MQTT and DLT645, and analyzes a plurality of protocol data to a uniform format data source.

8. The multi-source internet of things monitoring cloud platform of claim 1, wherein the module configuration of the internet of things service layer comprises conventional configuration, data source configuration, remote view configuration, monitoring configuration, alarm configuration, statistic configuration and operation and maintenance configuration.

9. The multi-source internet of things monitoring cloud platform of claim 1, wherein an HBase database is adopted for an object storage function of the internet of things service layer.