CN114938376A - Industrial Internet of things based on priority processing data and control method thereof - Google Patents

Abstract

The invention discloses an industrial Internet of things based on priority processing data, which comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted; the service platform is in independent arrangement, the management platform is in front sub-platform arrangement, and the sensing network platform is in centralized arrangement; the object platform is configured as a number of smart manufacturing devices on a pipeline. Through reasonable data classification and processing, the management platforms or the service platforms with reasonable priority can be reasonably planned, each management platform or each service platform can reasonably process data and share the data processing pressure of the other platforms at the same level, the data processing capacity of each platform is fully called, the data can be processed most quickly, the complexity and the cost of the overall structure of the Internet of things are effectively reduced, the data processing demand of a single platform is reduced, and the data transmission or processing pressure of the Internet of things is relieved.

Description

Industrial Internet of things based on priority processing data and control method thereof

Technical Field

The invention relates to an intelligent manufacturing technology, in particular to an industrial Internet of things based on priority processing data and a control method thereof.

Background

In the technical field of intelligent manufacturing, products are manufactured intelligently through intelligent manufacturing equipment on a production line, manual participation is not needed, full-process automation operation is achieved, and the intelligent manufacturing method has the advantages of being high in efficiency, low in cost, high in rate of finished products and the like.

Based on different product structures and processing flows, the number, the length and the number of the intelligent manufacturing equipment involved in the intelligent manufacturing process are large and small, and the number is large and small, and the intelligent manufacturing equipment comprises dozens of hundreds of different flow lines and hundreds of thousands of intelligent manufacturing equipment, when the intelligent manufacturing equipment is manufactured, data are generated, transmitted and processed all the time, wherein the data comprise production log data, production state real-time data, accessory use data, product detection data, abnormal alarm data, statistical data and the like, most of the data need to be uploaded to a specific server through a network for corresponding storage and processing, such as looking up the production state of the equipment, determining the production information of the product, acquiring the detection data, abnormal data or product statistical data and the like, and because the intelligent manufacturing equipment on the flow lines is large in number, large in data volume and various in data types, when the data processing of the intelligent manufacturing equipment is performed, many different networks and processors are required to be separately processed, data related to large amount in classification is required, high data processing amount and storage amount are required to be designed to meet requirements, so that the number of formed data systems is large, the cost is high, data is inconvenient to process and maintain in the later period, interaction among data is not easy to occur, and various problems of improper connection, accumulation of intermediate products and the like occur among the whole flow lines or the flow lines which are manufactured intelligently.

Disclosure of Invention

The technical problem to be solved by the invention is to provide an industrial Internet of things based on priority processing data, the Internet of things can ensure that each management platform or service platform can reasonably process data and share the data processing pressure of other peer platforms through reasonable data classification and processing and through a management platform or service platform with a reasonable planning priority, fully call the data processing capacity of each platform, meet the requirement of processing the data at the fastest speed, effectively reduce the complexity and cost of the overall structure of the Internet of things, reduce the data processing demand of a single platform and relieve the data transmission or processing pressure of the Internet of things.

The invention is realized by the following technical scheme: the industry thing networking of data is handled based on priority includes: the system comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted from top to bottom;

the service platform is arranged independently, the management platform is arranged in a front sub-platform mode, and the sensing network platform is arranged in a centralized mode; the independent arrangement means that the service platform stores, processes and/or transmits data of different lower-layer platforms by adopting different sub-platforms; the front sub-platform type arrangement means that a main platform and a plurality of sub-platforms are arranged on the corresponding platform, the sub-platforms respectively store and process data of different types or different receiving objects sent by the lower-layer platform, and the main platform collects, stores and processes the data of the sub-platforms and transmits the data to the upper-layer platform; the centralized arrangement means that the sensing network platform receives data uniformly, processes the data uniformly and sends the data uniformly; the object platform is configured as a number of intelligent manufacturing devices on a pipeline;

when the intelligent manufacturing equipment executes intelligent manufacturing, the intelligent manufacturing equipment generates product manufacturing data and uploads the product manufacturing data to a sensing network platform;

the sensing network platform receives the product manufacturing data, converts the product manufacturing data into a data file which can be identified by the management platform, and sends the data file to the sub-platform of the management platform with the highest priority;

after the sub-platforms of the management platform receive the data files and perform corresponding data processing, the processed data files are sent to the total platform of the management platform, and meanwhile, the data processing process number in the sub-platforms of the management platform is sent to the total platform of the management platform;

the main platform of the management platform receives the data file to perform corresponding data processing and storage, sends the processed data file to the sub-platform of the service platform with the highest priority, receives the data processing process number, calculates the priority of the sub-platform of each management platform, and re-determines the priority of the sub-platform of the management platform;

the sub-platforms of the service platform receive the processed data files, process and store the corresponding data, the processed transaction data is sent to the user platform, and meanwhile, the data processing process number in the sub-platforms of the service platform is sent to the total platform of the management platform;

and the total platform of the management platform receives the data processing process number of the sub-platforms corresponding to the service platforms, calculates the priority of the sub-platforms of each service platform, and re-determines the priority of the sub-platforms of the service platforms.

In the above technical solution of the internet of things,

when a user platform sends a first instruction, a sub-platform of a service platform with the highest priority level in sub-platforms of the service platforms receives the first instruction, analyzes the first instruction and forms a second instruction which can be identified by an object platform, and sends the second instruction to a total platform of a management platform;

the main platform of the management platform receives the second instruction, acquires the sub-platform of the management platform with the highest priority level in the sub-platforms of the management platform as a lower platform, and sends the second instruction to the lower platform;

the sub-platform serving as the management platform of the lower-layer platform receives the second instruction, acquires the equipment information of the intelligent manufacturing equipment in the second instruction as an index item, and associates the index item with the second instruction and then sends the index item and the second instruction to the sensing network platform;

the sensing network platform receives the index item and the second instruction data, sends the second instruction to the corresponding intelligent manufacturing equipment based on the index item, and the corresponding intelligent manufacturing equipment executes operation based on the second instruction.

In the above technical solution of the internet of things, the total platform of the management platform receives the data processing process number, calculates the priority of the sub-platforms of each management platform, and re-determines the priority of the sub-platforms of the management platform, specifically:

after the total platform of the management platform receives the data processing process numbers of the sub-platforms corresponding to the management platform, the data processing process numbers of the sub-platforms of all the management platforms are sorted in size, the sub-platforms of the management platform arranged at the first position are determined to have the highest priority, and the priority of the sub-platforms of the other management platforms is reduced in sequence according to the sorting from the small data processing process numbers to the large data processing process numbers.

In the technical scheme of the internet of things, after the total platform of the management platform receives the data processing process numbers of the sub-platforms corresponding to the management platform, the data processing process numbers of the sub-platforms of the other management platforms are called.

In the above technical solution of the internet of things, when the sub-platform of the first-ranked management platform performs data processing as the highest-priority platform, the priority ranking is reduced to the lowest until the total platform of the management platforms performs the next priority reordering.

In the technical scheme of the internet of things, the sub-platform priority determination mode of the service platform is the same as the sub-platform priority determination mode of the management platform.

In the foregoing technical solution of the internet of things, the total platform of the management platforms receives the data processing process number, calculates the priority of the sub-platforms of each management platform, and re-determines the priority of the sub-platforms of the management platforms, and further includes:

the sub-platform of the management platform calculates the residual memory amount in real time based on the data processing process number and the memory amount;

when the sub-platform of the management platform uploads the data processing process number, the corresponding residual memory amount is synchronously sent;

after the total platform of the management platform sorts the data processing process numbers of the sub-platforms of all the management platforms, the total platform of the management platform compares the residual memory amount corresponding to the sub-platform of each management platform with a memory threshold value prestored in the total platform of the management platform;

and based on the comparison result, the sub-platforms of the management platform with the residual memory amount smaller than the memory threshold value are not subjected to priority sequencing until the residual memory amount of the sub-platforms of the part of the management platform is larger than the memory threshold value.

The invention also provides a control method of the industrial Internet of things based on priority processing data based on the industrial Internet of things based on priority processing data, wherein the industrial Internet of things based on priority processing data comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted from top to bottom;

the service platform is in independent arrangement, the management platform is in front sub-platform arrangement, and the sensing network platform is in centralized arrangement; the independent arrangement means that the service platform stores, processes and/or transmits data of different lower-layer platforms by adopting different sub-platforms; the front sub-platform type arrangement means that a main platform and a plurality of sub-platforms are arranged on the corresponding platform, the sub-platforms respectively store and process data of different types or different receiving objects sent by the lower-layer platform, and the main platform collects, stores and processes the data of the sub-platforms and transmits the data to the upper-layer platform; the centralized arrangement means that the sensing network platform receives data uniformly, processes the data uniformly and sends the data uniformly; the object platform is configured as a number of smart manufacturing devices on a pipeline;

the control method comprises the following steps:

when the intelligent manufacturing equipment executes intelligent manufacturing, the intelligent manufacturing equipment generates product manufacturing data and uploads the product manufacturing data to a sensing network platform;

the sensing network platform receives the product manufacturing data, converts the product manufacturing data into a data file which can be identified by the management platform, and sends the data file to the sub-platform of the management platform with the highest priority;

after the sub-platforms of the management platform receive the data files and perform corresponding data processing, the processed data files are sent to the total platform of the management platform, and meanwhile, the data processing process number in the sub-platforms of the management platform is sent to the total platform of the management platform;

the main platform of the management platform receives the data file to perform corresponding data processing and storage, sends the processed data file to the sub-platform of the service platform with the highest priority, receives the data processing process number, calculates the priority of the sub-platform of each management platform, and re-determines the priority of the sub-platform of the management platform;

the sub-platforms of the service platform receive the processed data files, process and store the corresponding data, the processed transaction data is sent to the user platform, and meanwhile, the data processing process number in the sub-platforms of the service platform is sent to the total platform of the management platform;

and the total platform of the management platform receives the data processing process number of the sub-platforms of the corresponding service platform, calculates the priority of the sub-platforms of each service platform and re-determines the priority of the sub-platforms of the service platforms.

Compared with the prior art, the invention has the following beneficial effects: the invention relates to an industrial Internet of things based on priority processing data and a control method thereof, which is characterized in that an Internet of things is built based on a five-platform structure, wherein service platforms are independently arranged, can separately and independently process data processing transmission and processing, can realize data distribution, so that sub-platforms of all independent service platforms share data transmission and processing pressure together, then, a management platform is arranged in a front sub-platform manner, and a total sub-platform is utilized to carry out statistics of task process number and confirmation of priority, so that data transmission and processing can be reasonably distributed to corresponding platforms, the data processing condition of the Internet of things is integrally planned, the data transmission and processing capacity of each platform is effectively utilized, meanwhile, a sensing network platform is arranged in a centralized manner, the data centralized transmission of intelligent manufacturing equipment can be realized, and meanwhile, the unified data distribution can be conveniently carried out according to the priority of the management platform, and ensuring the uplink accuracy of the data.

When the invention is used, the invention combines the industrial Internet of things based on priority processing data and the control method thereof, obtains the data processing process number of the sub-platforms of each management platform and the sub-platforms of the service platform in real time through the total platform of the management platform, further determines the priority of each platform, processes the currently-advanced data by utilizing the platform with the highest priority, thereby processing all data according to different process numbers, and the corresponding platform can equally divide the process to the platforms of the same level based on the process numbers, thereby fully utilizing the data processing capability of the platforms of the same level, effectively solving the problems of large data processing capacity of part of the platforms and small data processing capacity of part of the platforms, leading the data processing to be more reasonable and efficient, and leading the data processing demand of each platform to be reduced because each platform of the same level can mutually share the data processing task, the construction structure and the cost are reduced to some extent, the data processing capacity of each platform is effectively improved and utilized, the data processing pressure of the platform is reduced, the complexity and the cost of the Internet of things construction structure are reduced, and the intelligent manufacturing is facilitated to be smoothly carried out and implemented.

Drawings

The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:

FIG. 1 is a structural framework diagram of an industrial Internet of things that processes data based on priority;

fig. 2 is a flowchart of a control method of an industrial internet of things based on priority processing data.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to examples and accompanying drawings, and the exemplary embodiments and descriptions thereof are only used for explaining the present invention and are not meant to limit the present invention.

As shown in fig. 1, a first embodiment of the present invention is directed to providing an industrial internet of things for processing data based on priority, where the industrial internet of things for processing data based on priority includes a user platform, a service platform, a management platform, a sensor network platform, and an object platform, which interact sequentially from top to bottom;

the service platform is arranged independently, the management platform is arranged in a front sub-platform mode, and the sensing network platform is arranged in a centralized mode; the independent arrangement means that the service platform adopts different sub-platforms to perform data storage, data processing and/or data transmission on data of different lower-layer platforms; the front sub-platform type arrangement means that a main platform and a plurality of sub-platforms are arranged on the corresponding platform, the sub-platforms respectively store and process data of different types or different receiving objects sent by the lower-layer platform, and the main platform collects, stores and processes the data of the sub-platforms and transmits the data to the upper-layer platform; the centralized arrangement refers to that the sensing network platform receives data, processes the data and sends the data in a unified manner; the object platform is configured as a number of intelligent manufacturing devices on a pipeline;

when the intelligent manufacturing equipment executes intelligent manufacturing, the intelligent manufacturing equipment generates product manufacturing data and uploads the product manufacturing data to a sensing network platform;

the sensing network platform receives the product manufacturing data, converts the product manufacturing data into a data file which can be identified by the management platform, and sends the data file to the sub-platform of the management platform with the highest priority;

after the sub-platforms of the management platform receive the data files and perform corresponding data processing, the processed data files are sent to the total platform of the management platform, and meanwhile, the data processing process number in the sub-platforms of the management platform is sent to the total platform of the management platform;

the main platform of the management platform receives the data file to perform corresponding data processing and storage, sends the processed data file to the sub-platform of the service platform with the highest priority, receives the data processing process number, calculates the priority of the sub-platform of each management platform, and re-determines the priority of the sub-platform of the management platform;

the sub-platforms of the service platform receive the processed data files, process and store the corresponding data, the processed transaction data is sent to the user platform, and meanwhile, the data processing process number in the sub-platforms of the service platform is sent to the total platform of the management platform;

and the total platform of the management platform receives the data processing process number of the sub-platforms corresponding to the service platforms, calculates the priority of the sub-platforms of each service platform, and re-determines the priority of the sub-platforms of the service platforms.

In the intelligent manufacturing equipment on an intelligent production line or an intelligent assembly line, when the intelligent manufacturing equipment executes intelligent manufacturing, more real-time data can be generated, such as production log data, production state real-time data, accessory use data, product detection data, abnormal alarm data, statistical data and the like, most of the data need to be uploaded to a specified server through a network for corresponding storage and processing, such as consulting the production state of the equipment, determining product production information, acquiring detection data, abnormal data or product statistical data and the like, and because the intelligent manufacturing equipment on the line has more quantity, large data volume and various data types, when the data processing of the intelligent manufacturing equipment is carried out, a plurality of different networks and processors are required to be separately processed, the classification involves more data, and higher data processing amount and storage amount are required to be designed to meet the requirements, the number of formed data processing systems is large, the cost is high, and for some data with large data updating amount and fast data, the problem of overlong data processing waiting time can also occur, so that the same data cannot be processed and fed back in time, the mutual coordination and consistency of intelligent manufacturing equipment are influenced, the data is extremely inconvenient to process and maintain in the later period, and the data cannot be interacted easily.

The industrial Internet of things based on priority processing data and the control method thereof build the Internet of things based on a five-platform structure, wherein the service platforms are independently arranged, can separately and independently process data processing transmission and processing, can realize data distribution, so that the sub-platforms of all independent service platforms share data transmission and processing pressure together, secondly, the management platform is arranged in a front sub-platform mode, and one total platform is used for counting task process numbers and confirming the priority, so that the data transmission and processing of the corresponding platforms can be reasonably distributed, the data processing condition of the Internet of things is integrally planned, the data transmission and processing capacity of each platform is effectively utilized, meanwhile, the sensing network platform is arranged in a centralized mode, the data centralized transmission of intelligent manufacturing equipment can be realized, and meanwhile, the unified data distribution can be conveniently carried out according to the priority of the management platform, and ensuring the uplink accuracy of the data.

When the invention is used, the invention combines the industrial Internet of things based on priority processing data and the control method thereof, obtains the data processing process number of the sub-platforms of each management platform and the sub-platforms of the service platform in real time through the total platform of the management platform, further determines the priority of each platform, processes the currently-advanced data by utilizing the platform with the highest priority, thereby processing all data according to different process numbers, and the corresponding platform can equally divide the process to the platforms of the same level based on the process numbers, thereby fully utilizing the data processing capability of the platforms of the same level, effectively solving the problems of large data processing capacity of part of the platforms and small data processing capacity of part of the platforms, leading the data processing to be more reasonable and efficient, and leading the data processing demand of each platform to be reduced because each platform of the same level can mutually share the data processing task, the construction structure and the cost are reduced to some extent, the data processing capacity of each platform is effectively improved and utilized, the data processing pressure of the platform is reduced, the complexity and the cost of the Internet of things construction structure are reduced, and the intelligent manufacturing is facilitated to be smoothly carried out and implemented.

It should be noted that, in this embodiment, the user platform may be a desktop computer, a tablet computer, a notebook computer, a mobile phone, or other electronic devices capable of implementing data processing and data communication, which is not limited herein. In a specific application, the first server and the second server may be a single server, or may be a server cluster, which is not limited herein. It should be understood that the data processing procedure mentioned in this embodiment may be processed by a processor of the server, and the data stored in the server may be stored in a storage device of the server, such as a memory of a hard disk. In a specific application, the sensor network platform may employ multiple groups of gateway servers, or multiple groups of intelligent routers, which is not limited herein. It should be understood that the data processing procedure mentioned in the embodiments of the present application may be processed by a processor of the gateway server, and the data stored in the gateway server may be stored in a storage device of the gateway server, such as a hard disk and a SSD.

Further, the industrial internet of things based on priority processing data utilizes the unique design of a sub-platform type in front of a management platform to enable the management platform to be provided with a main platform and a plurality of sub-platforms, and the main platform of the management platform is used for carrying out priority classification processing on the sub-platforms of the service platform and the sub-platforms of the management platform, so that the function of starting up is achieved, the data processing condition of the corresponding sub-platforms can be reasonably adjusted through a distribution process, the sub-platforms can be enabled to rapidly realize data processing without causing data congestion, the data processing pressure of the sub-platforms is relieved, the internet of things can be built more conveniently, and the cost can be reduced.

In practical application, the internet of things often needs to perform part of operations according to instructions of a user platform in the using process, and because data processing processes of each platform of the internet of things are effectively optimized, if the instructions cannot be reasonably distributed when being issued, the instructions may pass through the platform with a large number of processes, so that the instructions are greatly delayed, and the implementation effect of the final instructions may be affected.

Based on the above, in the invention, when the user platform sends out the first instruction, the sub-platform of the service platform with the highest priority in the sub-platforms of the service platform receives the first instruction, analyzes the first instruction and forms the second instruction which can be identified by the object platform, and sends the second instruction to the total platform of the management platform;

the main platform of the management platform receives the second instruction, acquires the sub-platform of the management platform with the highest priority level in the sub-platforms of the management platform as a lower platform, and sends the second instruction to the lower platform;

the sub-platform serving as the management platform of the lower platform receives the second instruction, acquires the equipment information of the intelligent manufacturing equipment in the second instruction as an index item, and associates the index item with the second instruction and then sends the index item and the second instruction to the sensor network platform;

the sensing network platform receives the index item and the second instruction data, sends the second instruction to the corresponding intelligent manufacturing equipment based on the index item, and the corresponding intelligent manufacturing equipment executes operation based on the second instruction.

Through the arrangement, when the instruction downlink transmission is carried out, the corresponding platform with the highest priority is also adopted to realize the processing and transmission of the instruction, so that the instruction can be executed fastest, and the delay of the instruction issuing is reduced.

In some embodiments, the total platform of the management platform receives the data processing process number, calculates the priority of the sub-platforms of each management platform, and re-determines the priority of the sub-platforms of the management platform, specifically:

after the total platform of the management platform receives the data processing process numbers of the sub-platforms corresponding to the management platform, the data processing process numbers of the sub-platforms of all the management platforms are sorted in size, the sub-platforms of the management platform arranged at the first position are sequentially sorted from small to large according to the data processing process numbers, the priority of the sub-platform of the management platform arranged at the first position is determined to be the highest, and the priority of the sub-platforms of the other management platforms is sequentially reduced.

In specific application, when the total platform of the management platform receives the data processing process number of the sub-platform of the corresponding management platform, the data processing process numbers of the sub-platforms of the other management platforms are called.

In some embodiments, when the sub-platform of the first-ranked management platform performs data processing as the highest-priority platform, the priority ranking is reduced to the lowest until the total platform of the management platforms performs the next priority ranking. After the priority ranking, when the total platform of the management platforms may not have been subjected to the next priority ranking or a plurality of processes requiring data processing exist at the same time, in order to realize process allocation more quickly, the sub-platform of the management platform ranked first may be used as the platform with the highest priority to perform data processing, and then the priority ranking is reduced to the lowest, so that the sub-platforms of the subsequent management platforms can be sequentially supplemented, and rapid process allocation can be realized in the period.

In some embodiments, the service platform and the management platform are prioritized in the same manner.

In practical applications, the corresponding platform processing has a certain memory limitation in addition to the process number limitation, and sometimes although the process number is large, the corresponding platform processing occupies a small amount of memory, and sometimes although the process number is small, the corresponding platform processing occupies a large amount of memory, based on which, when considering the process number, the platform processing the corresponding process needs to have enough memory to ensure that the platform processing the corresponding process can normally perform data in consideration of the possible situations, in some embodiments, the total platform of the management platform receives the data processing process number, calculates the priority of the sub-platforms of each management platform, and re-determines the priority of the sub-platforms of the management platform, and further includes:

the sub-platform of the management platform calculates the residual memory amount in real time based on the data processing process number and the memory amount;

when the sub-platform of the management platform uploads the data processing process number, the corresponding residual memory amount is synchronously sent;

after the total platform of the management platform sorts the data processing process numbers of the sub-platforms of all the management platforms in size, the total platform of the management platform compares the remaining memory amount corresponding to the sub-platform of each management platform with a memory threshold value prestored in the total platform of the management platform;

and based on the comparison result, the sub-platforms of the management platform with the residual memory amount smaller than the memory threshold value are not subjected to priority sequencing until the residual memory amount of the sub-platforms of the part of the management platform is larger than the memory threshold value.

As shown in fig. 2, a second embodiment of the present invention provides a method for controlling an industrial internet of things based on priority processing data, where the industrial internet of things based on priority processing data includes a user platform, a service platform, a management platform, a sensor network platform, and an object platform, which interact with each other sequentially from top to bottom;

the service platform is in independent arrangement, the management platform is in front sub-platform arrangement, and the sensing network platform is in centralized arrangement; the independent arrangement means that the service platform adopts different sub-platforms to perform data storage, data processing and/or data transmission on data of different lower-layer platforms; the front sub-platform type arrangement means that a main platform and a plurality of sub-platforms are arranged corresponding to the platforms, the sub-platforms respectively store and process data of different types or different receiving objects sent by the lower-layer platform, and the main platform collects, stores and processes the data of the sub-platforms and transmits the data to the upper-layer platform; the centralized arrangement means that the sensing network platform receives data uniformly, processes the data uniformly and sends the data uniformly; the object platform is configured as a number of smart manufacturing devices on a pipeline;

the control method comprises the following steps:

when the intelligent manufacturing equipment executes intelligent manufacturing, the intelligent manufacturing equipment generates product manufacturing data and uploads the product manufacturing data to the sensing network platform;

the sensing network platform receives the product manufacturing data, converts the product manufacturing data into a data file which can be identified by the management platform, and sends the data file to the sub-platform of the management platform with the highest priority;

after the sub-platforms of the management platform receive the data files and perform corresponding data processing, the processed data files are sent to the total platform of the management platform, and meanwhile, the data processing process number in the sub-platforms of the management platform is sent to the total platform of the management platform;

the main platform of the management platform receives the data file to perform corresponding data processing and storage, sends the processed data file to the sub-platform of the service platform with the highest priority, receives the data processing process number, calculates the priority of the sub-platform of each management platform, and re-determines the priority of the sub-platform of the management platform;

the sub-platforms of the service platform receive the processed data files, process and store the corresponding data, the processed transaction data is sent to the user platform, and meanwhile, the data processing process number in the sub-platforms of the service platform is sent to the total platform of the management platform;

and the total platform of the management platform receives the data processing process number of the sub-platforms corresponding to the service platforms, calculates the priority of the sub-platforms of each service platform, and re-determines the priority of the sub-platforms of the service platforms.

Those of ordinary skill in the art will appreciate that the various illustrative components and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the components and steps of the various examples have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and other divisions may be realized in practice, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may also be an electric, mechanical or other form of connection.

The elements described as separate parts may or may not be physically separate, as one of ordinary skill in the art would appreciate that the elements and algorithm steps of the examples described in connection with the embodiments disclosed herein may be embodied in electronic hardware, computer software, or combinations of both, and that the components and steps of the examples have been described in a functional general sense in the foregoing description for clarity of explanation of the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention essentially or partially contributes to the prior art, or all or part of the technical solution can be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, or a grid device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are merely exemplary embodiments of the present invention, and are not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements and the like made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. The industry thing networking of data is handled based on priority includes: the system comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted from top to bottom; it is characterized in that the preparation method is characterized in that,

the service platform is arranged independently, the management platform is arranged in a front sub-platform mode, and the sensing network platform is arranged in a centralized mode; the independent arrangement means that the service platform stores, processes and/or transmits data of different lower-layer platforms by adopting different sub-platforms; the front sub-platform type arrangement means that a main platform and a plurality of sub-platforms are arranged corresponding to the platforms, the sub-platforms respectively store and process data of different types or different receiving objects sent by the lower-layer platform, and the main platform collects, stores and processes the data of the sub-platforms and transmits the data to the upper-layer platform; the centralized arrangement refers to that the sensing network platform receives data, processes the data and sends the data in a unified manner; the object platform is configured as a number of smart manufacturing devices on a pipeline;

when the intelligent manufacturing equipment executes intelligent manufacturing, the intelligent manufacturing equipment generates product manufacturing data and uploads the product manufacturing data to a sensing network platform;

the sensing network platform receives the product manufacturing data, converts the product manufacturing data into a data file which can be identified by the management platform, and sends the data file to the sub-platform of the management platform with the highest priority;

after the sub-platforms of the management platform receive the data files and perform corresponding data processing, the processed data files are sent to the total platform of the management platform, and meanwhile, the data processing process number in the sub-platforms of the management platform is sent to the total platform of the management platform;

the main platform of the management platform receives the data file to perform corresponding data processing and storage, sends the processed data file to the sub-platform of the service platform with the highest priority, receives the data processing process number, calculates the priority of the sub-platform of each management platform, and re-determines the priority of the sub-platform of the management platform;

the sub-platforms of the service platform receive the processed data files, process and store the corresponding data, the processed transaction data is sent to the user platform, and meanwhile, the data processing process number in the sub-platforms of the service platform is sent to the total platform of the management platform;

and the total platform of the management platform receives the data processing process number of the sub-platforms corresponding to the service platforms, calculates the priority of the sub-platforms of each service platform, and re-determines the priority of the sub-platforms of the service platforms.

2. The industry IOT for prioritized data processing according to claim 1,

when a user platform sends a first instruction, a sub-platform of a service platform with the highest priority level in sub-platforms of the service platforms receives the first instruction, analyzes the first instruction and forms a second instruction which can be identified by an object platform, and sends the second instruction to a total platform of a management platform;

the main platform of the management platform receives the second instruction, acquires the sub platform of the management platform with the highest priority level in the sub platforms of the management platform as a lower platform, and sends the second instruction to the lower platform;

the sub-platform serving as the management platform of the lower-layer platform receives the second instruction, acquires the equipment information of the intelligent manufacturing equipment in the second instruction as an index item, and associates the index item with the second instruction and then sends the index item and the second instruction to the sensing network platform;

the sensing network platform receives the index item and the second instruction data, sends the second instruction to the corresponding intelligent manufacturing equipment based on the index item, and the corresponding intelligent manufacturing equipment executes operation based on the second instruction.

3. The internet of things for the industry based on priority processing data according to claim 1 or 2, wherein the total platform of the management platforms receives the data processing process number, calculates the priority of the sub-platforms of each management platform, and re-determines the priority of the sub-platforms of the management platforms, specifically:

after the total platform of the management platform receives the data processing process numbers of the sub-platforms corresponding to the management platform, the data processing process numbers of the sub-platforms of all the management platforms are sorted in size, the sub-platforms of the management platform arranged at the first position are determined to have the highest priority, and the priority of the sub-platforms of the other management platforms is reduced in sequence according to the sorting from the small data processing process numbers to the large data processing process numbers.

4. The Internet of things for the industry based on priority processing data as claimed in claim 3, wherein when the total platform of the management platforms receives the data processing process number of the sub-platform of the corresponding management platform, the data processing process numbers of the sub-platforms of the other management platforms are called.

5. The internet of things for priority-based data processing as claimed in claim 3, wherein when the sub-platform of the first-ranked management platform performs data processing as the highest-priority platform, the priority ranking is reduced to the lowest until the total platform of the management platforms performs the next priority reordering.

6. The Internet of things for industry based on priority processing data as claimed in claim 3, characterized in that the sub-platform priority determination mode of the service platform is the same as the sub-platform priority determination mode of the management platform.

7. The internet of things for priority-based data processing as claimed in claim 3, wherein the total platform of the management platforms receives the data processing process number, calculates the priority of the sub-platforms of each management platform, and re-determines the priority of the sub-platforms of the management platforms, further comprising:

the sub-platform of the management platform calculates the residual memory amount in real time based on the data processing process number and the memory amount;

when the sub-platform of the management platform uploads the data processing process number, the corresponding residual memory amount is synchronously sent;

after the total platform of the management platform sorts the data processing process numbers of the sub-platforms of all the management platforms, the total platform of the management platform compares the residual memory amount corresponding to the sub-platform of each management platform with a memory threshold value prestored in the total platform of the management platform;

and based on the comparison result, the sub-platforms of the management platform with the residual memory amount smaller than the memory threshold value are not subjected to priority sequencing until the residual memory amount of the sub-platforms of the part of the management platform is larger than the memory threshold value.

8. The industrial Internet of things based on priority processing data comprises a user platform, a service platform, a management platform, a sensing network platform and an object platform which are sequentially interacted from top to bottom; it is characterized in that the preparation method is characterized in that,

the service platform is in independent arrangement, the management platform is in front sub-platform arrangement, and the sensing network platform is in centralized arrangement; the independent arrangement means that the service platform adopts different sub-platforms to perform data storage, data processing and/or data transmission on data of different lower-layer platforms; the front sub-platform type arrangement means that a main platform and a plurality of sub-platforms are arranged on the corresponding platform, the sub-platforms respectively store and process data of different types or different receiving objects sent by the lower-layer platform, and the main platform collects, stores and processes the data of the sub-platforms and transmits the data to the upper-layer platform; the centralized arrangement means that the sensing network platform receives data uniformly, processes the data uniformly and sends the data uniformly; the object platform is configured as a number of intelligent manufacturing devices on a pipeline;

the control method comprises the following steps:

when the intelligent manufacturing equipment executes intelligent manufacturing, the intelligent manufacturing equipment generates product manufacturing data and uploads the product manufacturing data to a sensing network platform;

the sensing network platform receives the product manufacturing data, converts the product manufacturing data into a data file which can be identified by the management platform, and sends the data file to the sub-platform of the management platform with the highest priority;

after receiving the data file and carrying out corresponding data processing, the sub-platforms of the management platform send the processed data file to the total platform of the management platform, and meanwhile, send the data processing process number in the sub-platforms of the management platform to the total platform of the management platform;

the main platform of the management platform receives the data file to perform corresponding data processing and storage, sends the processed data file to the sub-platform of the service platform with the highest priority, receives the data processing process number, calculates the priority of the sub-platform of each management platform, and re-determines the priority of the sub-platform of the management platform;

the sub-platforms of the service platform receive the processed data files, process and store the corresponding data, the processed transaction data is sent to the user platform, and meanwhile, the data processing process number in the sub-platforms of the service platform is sent to the total platform of the management platform;

and the total platform of the management platform receives the data processing process number of the sub-platforms of the corresponding service platform, calculates the priority of the sub-platforms of each service platform and re-determines the priority of the sub-platforms of the service platforms.

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