CN115567557A

CN115567557A - Multi-target reporting method, device and system for industrial data

Info

Publication number: CN115567557A
Application number: CN202211144659.5A
Authority: CN
Inventors: 姚韬; 蒋小燕; 周凯
Original assignee: China United Network Communications Group Co Ltd; Unicom Digital Technology Co Ltd
Current assignee: China United Network Communications Group Co Ltd; Unicom Digital Technology Co Ltd
Priority date: 2022-09-20
Filing date: 2022-09-20
Publication date: 2023-01-03
Anticipated expiration: 2042-09-20
Also published as: CN115567557B

Abstract

The application provides a multi-target reporting method, a device and a system of industrial data, wherein the method is applied to an industrial terminal and comprises the following steps: responding to a data reporting instruction initiated by an enterprise node, and generating a plurality of message queues; the data reporting instruction carries a data reporting strategy, and the data reporting strategy comprises reporting data information and a plurality of corresponding target platforms; respectively transmitting data corresponding to the reported data information to a plurality of corresponding target platforms based on the plurality of message queues, wherein the target platforms at least comprise one of the following: an application platform, a cloud management platform, or an industry supervision platform. By the method, the industrial terminal generates the message queue according to the data reporting instruction and transmits the related data to the corresponding target platforms, so that multi-target reporting of the industrial data can be realized, the resource utilization rate of the industrial terminal is effectively improved, and the resource expansion pressure of the cloud management platform is reduced.

Description

Multi-target reporting method, device and system for industrial data

Technical Field

The present application relates to the field of electronic information technologies, and in particular, to a method, an apparatus, and a system for multi-target reporting of industrial data.

Background

In the industrial production process, the industrial terminal is responsible for realizing the internal network connection and information transmission of the industrial equipment and the production management platform.

In the related art, an industrial terminal automatically acquires multi-type data of a plurality of industrial devices, such as information of process parameters, production data, operation states, fault alarm information and the like, and performs data interaction with a production management platform to transmit the information. And then the production management platform processes the received relevant information of the industrial equipment, feeds back a control instruction to the industrial terminal so as to adjust equipment parameters, an industrial process or isolate and control a fault node, and then the industrial terminal forwards the control instruction to the specified industrial equipment.

In the scheme, the industrial terminal uniformly reports the acquired data to a single target platform, so that the actual network flow is not matched with the processing capacity of the digital terminal and the network throughput capacity, the computing power and the network capacity of the industrial terminal are idle, and resources are not effectively utilized; meanwhile, the production management platform needs to receive and process a large amount of data, which results in a large resource expansion pressure of the target platform.

Disclosure of Invention

In order to solve the above problems, that is, the problems of low resource utilization rate of the industrial terminal and large expansion pressure of the target platform resource, which are caused by the fact that the industrial terminal reports data to a single target, the application provides a multi-target reporting method, device and system of industrial data.

In order to achieve the above purpose, the present application provides the following technical solutions:

according to an aspect of the present application, a multi-target reporting method for industrial data is provided, which is applied to an industrial terminal, and includes:

responding to a data reporting instruction initiated by an enterprise node, and generating a plurality of message queues; the data reporting instruction carries a data reporting strategy, and the data reporting strategy comprises reporting data information and a plurality of corresponding target platforms;

respectively transmitting data corresponding to the reported data information to a plurality of corresponding target platforms based on the plurality of message queues, wherein the target platforms at least comprise one of the following: an application platform, a cloud management platform, or an industry supervision platform.

In one embodiment, the data delivery instruction is generated by the enterprise node generating a data delivery service list according to industrial terminal information and determining the data delivery service list by a management center; wherein the industrial terminal information includes at least one of: the authority of the industrial terminal, the network resource of the industrial terminal or the data resource of the industrial terminal.

In one embodiment, the transmitting data corresponding to the reported data information to a plurality of corresponding target platforms based on the plurality of message queues respectively includes:

and respectively transmitting data corresponding to the reported data information to a plurality of corresponding target platforms by utilizing an active identification carrier based on the plurality of message queues, so that after the target platforms receive the corresponding data, the target platforms call the active identification carrier information of a trusted identification platform to verify the correctness of the active identification carrier, feed back a first verification result to the enterprise node, enable the enterprise node to generate first charging information based on the first verification result and submit the first charging information to a management center, and enable the management center to deduct fees for the corresponding target platforms based on the first charging information.

In one embodiment, after generating the plurality of message queues, the method further comprises:

generating emergency disposition data based on the message queues;

when an emergency transmission instruction is received, a step of transmitting data corresponding to the reported data information to a plurality of corresponding target platforms respectively by using an active identification carrier based on a plurality of message queues is skipped, and the emergency disposition data is reported to the plurality of corresponding target platforms, so that after the target platforms receive the corresponding data, the correctness of the emergency disposition data is verified based on a preset rule, a second verification result is fed back to the enterprise node, the enterprise node generates second charging information based on the second verification result, and the management center deducts fees for the corresponding target platforms based on the second charging information;

the emergency transmission instruction is generated after the enterprise node receives an emergency transmission request of a corresponding target platform and is determined by the management center.

In one embodiment, the generating emergency treatment data based on the number of message queues includes:

receiving emergency disposal encryption information forwarded by a management center, wherein the emergency disposal encryption information is generated by a corresponding target platform and is sent to the management center for determining and forwarding, and the emergency disposal encryption information at least comprises secret key information and/or random codes;

generating emergency disposal data by encrypting the plurality of message queues according to the emergency disposal encryption information;

and the preset rule is used for decrypting the emergency disposal data by adopting decryption information corresponding to the emergency disposal encryption information so as to verify the correctness of the emergency disposal data.

and generating emergency disposal data based on the plurality of message queues, and reporting the emergency disposal data to the corresponding target platforms when transmitting the data corresponding to the reporting data information to the corresponding target platforms.

According to another aspect of the present application, there is provided an industrial terminal comprising:

a generation module configured to generate a plurality of message queues in response to a data delivery instruction initiated by an enterprise node; the data reporting instruction carries a data reporting strategy, and the data reporting strategy comprises reporting data information and a plurality of corresponding target platforms;

a data transmission module configured to transmit data corresponding to the reported data information to a plurality of corresponding target platforms based on the plurality of message queues, respectively, where the target platforms include at least one of: an application platform, a cloud management platform, or an industry supervision platform.

According to another aspect of the application, a multi-target reporting system for industrial data is provided, which comprises one or more industrial terminals, one or more enterprise nodes and a plurality of target platforms, wherein the enterprise nodes and the target platforms are respectively electrically connected with the industrial terminals,

the enterprise node is used for generating a data reporting instruction and sending the data reporting instruction to one or more corresponding industrial terminals;

the industrial terminal is used for responding to the data reporting instruction and generating a plurality of message queues; the data reporting instruction carries a data reporting strategy, the data reporting strategy comprises reporting data information and a plurality of corresponding target platforms, and data corresponding to the reporting data information are transmitted to the plurality of corresponding target platforms respectively based on the plurality of message queues;

the target platform includes at least one of: and the application platform, the cloud management platform or the industry supervision platform is used for receiving the data transmitted by the one or more industrial terminals.

In one embodiment, the enterprise node is further configured to generate a data delivery service list according to industrial terminal information, wherein the industrial terminal information includes at least one of: authority of industrial terminal, network resource of industrial terminal or data resource of industrial terminal

The system further comprises:

and the management center is used for receiving the data reporting service list and determining a corresponding service order according to the data reporting service list so that the enterprise node generates a data reporting instruction based on a determination result.

In one embodiment, the system further comprises:

the trusted identification platform is used for allocating an active identification carrier to the industrial terminal and verifying the correctness of the active identification carrier of the industrial terminal to obtain a first verification result when the industrial terminal transmits data corresponding to the reported data information to the corresponding target platforms by using the active identification carrier based on the plurality of message queues respectively;

the enterprise node is further used for generating first charging information based on the first verification result;

and the management node is also used for receiving the first charging information and deducting the corresponding target platform based on the first charging information.

It can be understood that, in the multi-target delivery method, apparatus, and system for industrial data provided in the present application, a plurality of message queues are generated by responding to a data delivery instruction initiated by an enterprise node, where = the data delivery instruction carries a data delivery policy, the data delivery policy includes delivery data information and a plurality of corresponding target platforms, and transmits data corresponding to the delivery data information to the plurality of corresponding target platforms based on the plurality of message queues, respectively, where the target platforms at least include one of: an application platform, a cloud management platform, or an industry supervision platform. By the method, the industrial terminal generates the message queue according to the data reporting instruction and transmits the related data to the corresponding target platforms, so that multi-target reporting of the industrial data can be realized, the resource utilization rate of the industrial terminal is effectively improved, and the resource expansion pressure of the cloud management platform is reduced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

FIG. 1a is a schematic flow chart of a method for industrial data transmission in the related art;

FIG. 1b is a second schematic flow chart of a related art industrial data transmission method;

FIG. 2 is a schematic view of a multi-objective reporting method for industrial data according to an embodiment of the present disclosure;

FIG. 3 is a flowchart illustrating a multi-target reporting method for industrial data according to an embodiment of the present disclosure;

FIG. 4a is a flow chart illustrating the generation and implementation of a service order in an example of the present application

FIG. 4b is a schematic flow chart illustrating the delivery of data in an example of the present application;

FIG. 4c is a schematic flow chart of an exemplary emergency data submission of the present application;

FIG. 4d is a schematic flow chart of the drill data generation and test in the present example;

FIG. 4e is a second flowchart illustrating an emergency data submission in accordance with an example of the present application;

FIG. 4f is a third exemplary flow chart of emergency data reporting in the present application;

FIG. 4g is a schematic diagram of a process flow of an industrial terminal failure in an example of the present application;

fig. 5 is a schematic structural diagram of an industrial terminal according to an embodiment of the present application;

FIG. 6 is a schematic structural diagram of a multi-target reporting system for industrial data according to an embodiment of the present disclosure;

fig. 7 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

With the above figures, there are shown specific embodiments of the present application, which will be described in more detail below. The drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the concepts of the application by those skilled in the art with reference to specific embodiments.

Detailed Description

In the related art, as shown in fig. 1a, there are multiple production management platforms and industrial terminals associated with the platforms. The industrial terminal directly reports information to the production management platform to which the industrial terminal belongs, the address and the port of the production management platform for receiving the information are pre-allocated, and the type of the reported information is stored in the industrial terminal and is fixed for a long time. The industrial terminal and the industrial equipment identification connected with the industrial terminal adopt private codes respectively defined by the production management platform, and various information uploaded by the industrial terminal and feedback control instructions of the production management platform adopt plaintext transmission and use the private codes. The specific steps are as follows:

(1) the industrial terminal automatically acquires information such as process parameters, production data, running states, fault alarms and the like of a plurality of industrial devices and sends the information to the affiliated management platform.

(2) And after processing the relevant information, the production management platform feeds back a control instruction to the industrial terminal, and the industrial terminal receives the instruction.

(3) And the industrial terminal forwards the control instruction to the specified industrial equipment and feeds back an instruction execution result to the production management platform.

With the development of the technology, under the industrial internet environment, the development trend of 'equipment networking and data cloud' is already the development trend, and the related technology is gradually based on an active identification carrier, and industrial internet identification is given to the industrial terminal and the related industrial equipment, so that resources can be effectively integrated, and the operation is standardized. The industrial terminal directly reports data to a cloud management platform (corresponding to a production management platform), the address and the port of the cloud management platform, and the type of the reported information is stored in the industrial terminal and is fixed for a long time. The industrial terminal uses an active identification carrier, and the trusted identification platform assists the cloud management platform to complete identity verification and safe transmission of terminal data report together. And the application platform acquires information from the cloud management platform to complete the service process. The industrial terminal automatically acquires information such as process parameters, production data, operation states, fault alarms and the like of a plurality of industrial devices, uses the capability of an active identification carrier, executes operations such as data encryption and digital signature and sends the operation to the cloud management platform. With reference to fig. 1b, the method specifically includes the following steps:

(1) and the cloud management platform sends requests for verifying the identity of the terminal, decrypting data and the like to the trusted identification platform.

(2) And the trusted identification platform feeds back the end identity authentication and data decryption results to the cloud management platform.

(3) And the application platforms send the data acquisition application to the cloud management platform.

(4) And the cloud management platform feeds back the data acquisition result to the application platform.

The above-mentioned industrial data reporting scheme of the related art still causes the following problems:

1) Resource utilization is unbalanced, and the utilization rate of industrial terminals and network resources is low. The industrial terminal only reports data to a single target, and the actual network flow is not matched with the processing capacity of the digital terminal and the throughput capacity of the 4G/5G network, so that the computing power and the network capacity of the industrial terminal are idle and are not effectively utilized; meanwhile, the cloud management platform needs to receive, store and process all data and provide services to the outside, so that the resource expansion pressure of the cloud management platform is large.

2) Structural potential safety hazards exist, and the cloud management platform becomes a safety bottleneck. And the terminal sends data to the cloud management platform, and the data are converged to the cloud management platform to uniformly provide services for the application platform. The network topology structure is a star structure, once the cloud management platform fails, the application platform cannot acquire data, and service continuity is difficult to guarantee; due to the lack of effective data verification means, the cloud management platform is used as a single data source, and data processing errors can continuously affect a subsequent application platform and are difficult to perceive.

3) The application platform has poor data acquisition timeliness and is difficult to support complex service scenes. Terminal data reach an application platform through a cloud management platform, information transmission and processing are in a serial mode, a chain is long, data are large in concentration, and efficiency cannot be avoided when the data are gathered in a cloud platform analysis process; the direct opening of the message queue can cause serious security problems; the multiple application platforms cannot acquire real-time data of the terminal, and are difficult to meet complex business scenes and novel state requirements of dynamic change crossing organizations, regional equipment lease, cold-chain logistics, predictive maintenance and the like.

4) The data quality of the terminal is difficult to ensure, and the government industry supervision requirements cannot be met. For example, in the actual vehicle operation and industrial production, data is processed by an enterprise cloud management platform and then is sent to an industry supervision platform. The industry supervision platform is restricted by the enterprise cloud management platform, the data content is avoided, and key information is not provided; the authenticity, integrity and objectivity of the information are questioned, and besides field inspection, the information is difficult to check and the supervision effect is difficult to achieve. There is a lack of a fast channel and technical means for initiating direct reporting of important and urgent information from a terminal. The monitoring equipment is deployed in parallel, so that the cost is too high and the implementation difficulty is high.

In view of this, an embodiment of the present application provides a method, an apparatus, and a system for multi-target delivery of industrial data, where an enterprise node, a management center, and an industry supervision platform are newly added in a data delivery network, an industrial terminal receives a data delivery instruction of the enterprise node, the data delivery instruction carries delivery data information and data delivery policies of multiple corresponding target platforms, and sends the corresponding data to the multiple target platforms such as a cloud management platform, an application platform, and an industry supervision platform according to the delivery policies, so as to implement multi-target delivery of industrial data, and the application platform and/or the industry supervision platform can directly acquire industrial data from the industrial terminal without forwarding through the cloud management platform, thereby effectively improving resource utilization of the industrial terminal and efficiency of acquiring data of other target platforms, reducing resource expansion pressure and data security hidden danger of the cloud management platform, and ensuring data quality. In addition, in the process of reporting the industrial data, the management center can carry out unified management and control so as to further improve the multi-target reporting efficiency of the industrial data.

In order to make the objects, technical solutions and advantages of the present application clearer, the technical solutions in the embodiments of the present application will be described in more detail below with reference to the drawings in the embodiments of the present application. In the drawings, the same or similar reference numerals denote the same or similar components or components having the same or similar functions throughout. The described embodiments are a subset of the embodiments in the present application and not all embodiments in the present application. The embodiments described below with reference to the accompanying drawings are illustrative and intended to explain the present application and should not be construed as limiting the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Fig. 2 is a schematic diagram of a possible scenario provided in an embodiment of the present application, as shown in fig. 2, the scenario includes an industrial terminal (1, \8230;, n) 210, an industrial device (1, \8230;, m) 220, an enterprise node 230, a trusted identifier platform 240, a cloud management platform 250, an application platform and/or an industry supervision platform 260, and a management center 270 electrically connected to the enterprise node 230, the trusted identifier platform 240, and the application platform and/or the industry supervision platform 260.

Optionally, a data delivery gateway is added to the industrial terminal 210, an application platform, and/or a data handling gateway is added to the industrial regulatory platform 260. The industrial terminal 210 uses the data delivery gateway to perform data delivery to the multi-target platform, and the application platform and/or the industry supervision platform 260 uses the data handling gateway to store or process the received corresponding data.

Optionally, the enterprise node 230 includes modules such as resource management, task scheduling, and service gateway, and is responsible for managing related industrial terminals, networks, and data resources related to multi-target delivery, issuing terminal data delivery services, and specifying terminals and destinations related to data delivery tasks, task priorities, types, amounts, and frequencies of data, based on service orders, and then encapsulating the data delivery policies into instructions to be distributed to the designated industrial terminal data delivery gateway, and monitoring data traffic flow direction and status information sent by the data delivery gateway in real time; and may communicate with the trusted identification platform 240 to confirm management center, application platform, industry supervision platform identity, and to interact with management center service order, cost settlement information.

Optionally, the management center 270 is responsible for connecting one or more application platforms, an industry supervision platform, and one or more enterprise nodes, issuing a terminal datagram service supported by each enterprise node, sending a service order and charge settlement information to the enterprise node, and completing transaction behaviors of ordering services and paying charges of the application platforms and ordering services of the industry supervision platform.

In one implementation, the data submission gateway of the industrial terminal 210 is responsible for receiving and analyzing the instruction of the enterprise node, and can provide submission services of data and emergency disposal data to a government industry supervision platform and a plurality of application platforms (including a cloud management platform) based on an active identification carrier storing industrial internet IDs according to requirements of a destination, task priority, type, quantity, frequency and the like; the data processing gateway of the application platform and/or the industry supervision platform 260 is responsible for sending service application to the management center, receiving data reported by the terminal, verifying the integrity and authenticity of the data through the trusted identification platform, or verifying according to a preset rule during emergency processing, confirming a service order and paying.

In one implementation, the enterprise node 230, the management center 270, the application platform, and/or the industry oversight platform 260 may interact with service orders and accounting information based on blockchain techniques to provide distributed management of data services.

It should be noted that in some application scenarios, besides the cloud management platform, the application platform, and the industry supervision platform, other platforms with industrial data requirements, such as an enterprise cooperation platform, may also be included.

The scenario diagram of the present application is briefly described above, and the industrial terminal 210 applied in fig. 2 is taken as an example to describe in detail the multi-target reporting method for industrial data provided in the embodiment of the present application.

Referring to fig. 3, fig. 3 is a multi-objective reporting method for industrial data according to an embodiment of the present disclosure, including step S301 and step S302.

Step S301, responding to a data report instruction initiated by an enterprise node, and generating a plurality of message queues; the data reporting instruction carries a data reporting strategy, and the data reporting strategy comprises reporting data information and a plurality of corresponding target platforms.

In this embodiment, a manner that the industrial terminal directly uploads the acquired industrial data to the cloud management platform is replaced, and after receiving a data reporting instruction of the enterprise node, the industrial terminal generates a corresponding message queue according to data reporting, and completes data reporting preparation work.

It is understood that the enterprise node is responsible for managing the delivery process of the industrial terminal within the enterprise region, such as the delivery start process, the end process, the fee deduction process, or other processes.

It will be appreciated that in response to indicating a condition or state on which an executed operation depends, one or more of the operations executed may be in real time or may have a set delay when the dependent condition or state is satisfied; there is no restriction on the order of execution of the operations performed unless otherwise specified.

Illustratively, the enterprise node firstly generates a data report service list and sends the data report service list to the management center, the management center determines a service order according to the data report service list and synchronizes the service order to a plurality of target platforms, each target platform can initiate a service application according to the service order and feed the service application back to the management center, the management center determines the service application and signs and sends a corresponding service order back to the enterprise node, and the enterprise node generates a data report instruction based on the service order determined by the data report service list.

Further exemplarily, the service order implementation process can complete the data report preparation work through cooperation of the industry supervision/application platform, the management center, the enterprise node and the industrial terminal. As shown in fig. 4a, the following process may be included:

(1) Based on the industrial Internet ID, the enterprise node irregularly releases a data report service list of the industrial terminal, which comprises sample data and metadata. The data delivery list can be uploaded to the block chain, and the summary information of the data delivery list is included in the block chain.

(2) The management node determines (e.g., screens, aggregates) the inventory of data delivery services published by each enterprise node. The data reporting service list can be uploaded to the block chain, and the summary information of the data reporting service list is included in the block chain.

(3) The method comprises the following steps that an industry supervision platform and/or a management center initiates an order (unsubscription, change) service application; the server application can also be uploaded to the block chain, and the summary information is included in the block chain, includes information such as the receiving address and the port, and can generate the summary and the digital signature.

(4) And the management center confirms the service application of the industry supervision platform and the application platform, and determines and signs the service order sent by the data report to send each enterprise node.

(5) The enterprise node receives the service order, generates a data reporting instruction (namely task scheduling) and distributes related industrial terminals;

(6) The industrial terminal receives and executes the data reporting instruction, at least establishes two message queues of an industrial supervision and application platform and feeds back the ready information to the enterprise node.

(7) The enterprise node confirms that all the related industrial terminals are ready, feeds back the service order to the management center, completes the implementation of the service order, and can upload the confirmation information to the block chain, and the summary information of the confirmation information is contained in the block chain.

(8) And the management center confirms that all the enterprise nodes feed back the service orders and implement the service orders, feeds back the service orders to the industry supervision platform and the application platform, uploads the confirmation information to the block chain, and the summary information of the block chain is contained in the block chain table.

(9) The industry supervision platform and the application platform confirm that the service order is implemented and fed back, and upload the confirmation information to the block chain, and the summary information is brought into the block chain.

Further illustratively, the data delivery service list may include information such as industrial internet ID, metadata, sample data, frequency, rate, priority, price, enterprise node ID, digital digest, and digital signature of the industrial terminal, and its header is as shown in table 1 below:

the service application may include information such as application ID, industrial internet ID, enterprise node ID, service type, service data, digital digest and digital signature, and its header is shown in table 2 below:

the service order may include information such as an order ID, an industrial internet ID, an enterprise node ID, an application ID, a service type, service data, an application platform/industrial supervision platform ID, a digital digest, and a digital signature, and the header of which is shown in table 3 below:

the datagram instruction may include information such as an industrial internet ID, a service type, service data, a target address, a digital digest, and a digital signature, and its header is shown in table 4 below:

step S302, respectively transmitting data corresponding to the reported data information to a plurality of corresponding target platforms based on the plurality of message queues, wherein the target platforms at least comprise one of the following: an application platform, a cloud management platform, or an industry supervision platform.

After the data report preparation work is finished, the corresponding data report is sent to the corresponding target platforms according to the message queue, and industrial terminal resources are effectively utilized. In practical application, considering that the cloud management platform generally needs to manage data of all industrial terminals governed by the cloud management platform, all data collected by the industrial terminals can be transmitted to the cloud management platform, and corresponding data required by the industrial management platform can be transmitted to the application platform and/or the industry supervision platform. The implementation process may be that the target address corresponding to the message queue is of the cloud management platform, and the service data is all data.

In an embodiment, to further improve the security and the authenticity of data transmission and the resource utilization rate of the terminal, the step S302 of transmitting data corresponding to the delivery data information to the corresponding target platforms based on the message queues respectively may include the following steps:

and respectively transmitting data corresponding to the reported data information to a plurality of corresponding target platforms by using an active identification carrier based on the plurality of message queues, so that after the target platforms receive the corresponding data, the target platforms call the active identification carrier information of a trusted identification platform to verify the correctness of the active identification carrier, feed back a first verification result to the enterprise node, enable the enterprise node to generate first charging information based on the first verification result and submit the first charging information to a management center, and enable the management center to deduct the corresponding target platforms based on the first charging information.

In this embodiment, based on the active identification carrier, the industrial terminal can safely and controllably report data to a plurality of targets in parallel, and the industry supervision/application platform and the cloud management platform can call the trusted identification platform to confirm the identity and content of the terminal, so as to ensure the safety and authenticity of data transmission.

It can be understood that the active identification carrier is embedded in the device, carries an identification code, a necessary security certificate, an algorithm, and a key, has a networking communication function, and actively initiates connection to an identification analysis service node or an identification data application platform (corresponding to the trusted identification platform in this embodiment), and the like, without being triggered by an identification read-write device.

In an implementation manner, in order to avoid that a plurality of target platforms are difficult to ensure the security and authenticity of received data when the trusted identification platform fails, the embodiment generates emergency disposal data, and when the trusted identification platform fails, reports emergency data to the multi-target platform, so as to further improve the security and authenticity of data transmission. Specifically, after generating several message queues in step S302, the following steps may be further included:

generating emergency disposition data based on the number of message queues;

In some embodiments, considering that the management center may also be in a failure, when the management center and the trusted identification platform are in a failure, the enterprise node may directly initiate an emergency transmission instruction to the industrial terminal without being requested by the target platform and determined by the management center.

Further, the generating emergency treatment data based on the message queues may include the following steps:

receiving emergency disposal encryption information forwarded by a management center, wherein the emergency disposal encryption information is generated by a corresponding target platform and is sent to the management center to be forwarded after being determined, and the emergency disposal encryption information at least comprises secret key information and/or random codes;

the preset rule is that the emergency disposal data is decrypted by adopting decryption information corresponding to the emergency disposal encryption information so as to verify the correctness of the emergency disposal data.

The data reporting process in this embodiment can implement normal reporting and abnormal emergency processes of data to complete data reporting orders of multiple target platforms. Illustratively, in conjunction with fig. 4b, the normal reporting process (e.g., no failure occurs in each platform) is as follows:

(1) The industrial terminal reports data to a plurality of specified targets, the data content can be encrypted optionally according to the requirement of a data reporting instruction, and summary information and digital signatures are generated based on an active identification carrier storing industrial Internet IDs.

(2) And the industry supervision/application platform receives the data reported by the terminal and calls the trusted identification service platform for authentication.

(3) The trusted identification platform confirms the identity and the content of the terminal and feeds back to the industry supervision/application platform.

(4) And the industry supervision platform and the application platform receive and process the industrial terminal report data.

(5) The enterprise node monitors the data flow to form charging information, and sends the charging information to the management center, and the related information can be brought into the linked list.

(6) The management center confirms the charging information of the service order, and sends an application platform and an industry supervision platform, and related information can be brought into a linked list.

(7) The application platform and the industry supervision platform confirm the payment of the service order, and related information can be brought into the linked list.

(8) The management center executes the service order fee deduction work, and the related accounting information can be contained in the linked list.

Referring to fig. 4c, taking the industry supervision/application platform initiating the emergency treatment application as an example, the industry terminal sends the emergency treatment data, so that the industry supervision/application platform can verify the authenticity integrity of the emergency treatment data sent by the terminal without relying on the trusted identity platform, and then analyze, process and process the data, and recover the trusted identity service platform from the fault, specifically, the abnormal emergency process (for example, the trusted identity platform fails and recovers to be normal) is as follows:

(1) When the credible identification service platform breaks down, the industry supervision/application platform issues an emergency disposal application, generates an abstract and a digital signature, and sends the abstract and the digital signature to a management center.

(2) And the management center receives the emergency disposal application sent by the industry supervision/application platform, confirms and issues an emergency disposal order, generates an abstract and a digital signature, and sends the abstract and the digital signature to each enterprise node.

(3) And the enterprise node analyzes and verifies the identity of the industry supervision/application platform, confirms the emergency disposal order sent by the management center and generates an emergency transmission instruction to distribute all the industrial terminals.

(4) And the industrial terminal executes the emergency transmission instruction, encrypts data by using the emergency disposal secret key and the random code, and reports the emergency data cipher text and the random code, the order ID and the abstract value of the industrial Internet ID to a specified target.

(5) And the industry supervision/application platform checks the abstract values of the random code, the order ID and the industrial Internet ID, decrypts by using the emergency disposal key and the random code, and analyzes and processes the data.

(6) And recovering the fault of the trusted identification service platform.

(7) And the industry supervision/application platform issues emergency disposal keys and random codes related to each industrial terminal.

(8) And the industry supervision/application platform confirms to start normal data submission application, generates an abstract and a digital signature and sends the abstract and the digital signature to the management center.

(9) The management center signs a data report service starting order, generates an abstract and a digital signature, and sends an enterprise node, wherein the abstract information can be included in the block linked list.

(10) And the enterprise node confirms the starting service order and distributes each industrial terminal, and the feedback management center (the summary information can be contained in the block linked list) stops the industrial terminal from reporting the emergency disposal data and restores the normal reporting.

(11) And the management center receives the starting service order feedback of each enterprise node and forwards the industry supervision/application platform.

(12) The industry supervision/application platform receives the management center acknowledgement initiation feedback (summary information is included in the block linked list).

In some embodiments, to further achieve efficient transmission of data, before performing formal transmission of industrial data, a data drilling test process is further provided, which is shown in conjunction with fig. 4d and includes the following processes:

(1) The industry supervision/application platform issues exercise data (a summary and a digital signature can be generated), and a trusted identification service platform is called.

(2) The trusted identification platform generates a summary and a digital signature from the received data and feeds the summary and the digital signature back to the industry supervision/application platform.

(3) The management center confirms the application of the industry supervision/application platform, issues a data report and sends a drilling order, and generates an abstract and a digital signature.

(4) And the enterprise node analyzes and verifies the identities of the credible identification platform and the industry supervision/application platform, confirms the drilling order sent by the management center, forms a task scheduling instruction and distributes related industrial terminals.

(5) The industrial terminal executes the instruction, sends the drilling data to the specified target, and generates the abstract and the digital signature based on the active representation carrier storing the industrial Internet ID.

(6) And the industry supervision/application platform receives the data sent by the terminal and calls the trusted identification service platform to carry out authentication.

(7) The trusted identification platform confirms the identity and the content of the terminal and feeds back to the industry supervision/application platform.

(8) The industry supervision/application platform parses and confirms that the drill data is consistent.

(9) The industry supervision/application platform generates emergency drilling keys and random codes related to all terminals, generates abstracts and digital signatures and sends the abstracts and the digital signatures to the management center.

(10) And the management center receives the emergency drilling secret key sent by the industry supervision/application platform, signs an emergency drilling order, generates an abstract and a digital signature and sends each enterprise node.

(11) And the enterprise node confirms the emergency drilling order sent by the management center, analyzes and verifies the identities of the trusted identification platform and the industry supervision/application platform, confirms the emergency drilling application sent by the management center, forms a task scheduling instruction and distributes related industrial terminals.

(12) And the industrial terminal executes the instruction, encrypts the drilling data by using the emergency drilling secret key and the random code, and reports the emergency drilling data ciphertext, the random code and the abstract value of the terminal identification to the specified target.

(13) The industry supervision/application platform checks the abstract values of the random code and the terminal identification, decrypts the abstract values by using the emergency drilling key and the random code, and checks the emergency drilling data.

(14) And the industry supervision/application platform generates emergency disposal keys and random codes related to all the terminals.

(15) The industry supervision/application platform confirms the application for starting data submission (including the emergency disposal key and the random code related to each terminal), generates the abstract and the digital signature and sends the abstract and the digital signature to the management center.

(16) The management center signs and sends a data report service starting order, generates an abstract and a digital signature, and sends the enterprise node (the abstract information is included in the block linked list).

(17) And the enterprise node confirms the starting service order and distributes each industrial terminal, and feeds back to the management center (the summary information is included in the block linked list).

(18) The management center confirms that each enterprise node starts an order feedback industry supervision/application platform (summary information is included in a block linked list).

(19) The industry supervision/application platform receives the management center confirmation start feedback (summary information is included in the block linked list).

In an embodiment, in order to further implement a data security transmission mode when the trusted platform fails and the management center or the enterprise node simultaneously fails, after generating a plurality of message queues, the embodiment may further include the following steps:

In order to reduce the influence of the occurrence of the fault of each platform on data transmission and for the case of the occurrence of the fault of each platform, the embodiment correspondingly provides a corresponding solution. Illustratively, when the industry supervision and application platform fails, the data report is normally executed, other related nodes do not need to act, the existing service order is executed as usual, and confirmation is performed after the industry supervision and application platform is recovered after application and order on the way. When the management center fails, only the in-transit and subsequent service orders are affected, and the existing service orders are executed as usual. And during the fault of the management center, if the trusted identification platform has a fault, executing a fault processing flow of the management center and the trusted identification platform. When the credible identification platform fails, if the management center fails, executing a fault processing flow of the management center and the credible identification platform, otherwise, executing a fault processing flow of the credible identification platform. And if the enterprise node fails, directly executing a fault processing flow of the enterprise node without considering the faults of other nodes. And (4) directly executing the fault processing flow of the specific terminal when the specific industrial terminal has a fault.

Further, as for a processing flow when the trusted identity platform fails, as shown in fig. 4 c; aiming at the fault processing flow of the enterprise node, in order to avoid the risk that the industry supervision/application platform cannot confirm the received data because the credible identification platform fails at the same time, the industrial terminal adopts a double-path reporting mode. That is, one path of data is normally reported to a specified target, and the other path of data is reported to emergency disposal data, and a post-processing flow of fault recovery of an enterprise node is shown in fig. 4e, which includes the following steps:

(1) When an enterprise node breaks down, in order to avoid the risk that the industry supervision/application platform cannot confirm received data because the credible identification platform breaks down at the same time, the industrial terminal adopts a double-path reporting mode. The method comprises the steps that on one hand, data are submitted to a designated target, a summary and a digital signature are generated based on an active expression carrier storing industrial Internet ID, and data contents can be optionally encrypted according to task instruction requirements; meanwhile, the data are encrypted by using the emergency disposal secret key and the random code, and the emergency data ciphertext and the random code, the order ID and the abstract value of the industrial Internet ID are reported to the specified target.

(2) And the industry supervision/application platform calls the trusted identification service platform to carry out authentication according to actual conditions, and processes the industrial terminal delivery data based on the trusted identification platform feedback. Or verifying the abstract values of the random code, the order ID and the industrial Internet ID, decrypting by using the emergency disposal secret key and the random code, and analyzing and processing the data

(3) And the failure recovery of the enterprise node provides services normally.

(4) And the industry supervision/application platform generates an emergency disposal key and a random code related to each terminal.

(5) And the industry supervision/application platform confirms the application for starting data submission, generates an abstract and a digital signature and sends the abstract and the digital signature to the management center.

(6) The management center signs and sends a data report service starting order, generates an abstract and a digital signature, and sends the enterprise node (the abstract information is included in the block linked list).

(7) And the enterprise node confirms the starting service order and distributes each industrial terminal, and the feedback management center (summary information inclusion block linked list) stops the industrial terminal from reporting the emergency disposal data and restores the normal reporting.

(8) And the management center receives the feedback of the starting service orders of all the enterprise nodes and forwards the industry supervision/use platform.

(9) The industry supervision/application platform receives the management center confirmation start feedback (summary information is included in the block linked list).

Further, for a simultaneous fault processing flow of the trusted identity platform and the management center, the simultaneous fault processing flow may include an enterprise node notifying the terminal to start an emergency disposal flow, and a processing flow after the fault recovery of the trusted identity service platform and the management center, as shown in fig. 4 f:

(1) When the credible identification platform and the management center simultaneously break down, the enterprise node informs the industrial terminal to start an emergency disposal process.

(2) The industrial terminal encrypts data by using the emergency disposal secret key and the random code, and reports the emergency data ciphertext and the random code, the order ID and the abstract value of the industrial Internet ID to a specified target.

(3) The industry supervision/application platform checks the abstract values of the random code, the order ID and the industrial Internet ID, decrypts the abstract values by using the emergency disposal key and the random code, and analyzes and processes data.

(4) And the trusted identification platform and the management center are recovered to be normal.

(5) And the industry supervision/application platform generates an emergency disposal key and a random code related to each terminal.

(6) And the industry supervision/application platform confirms the application for starting data submission, generates an abstract and a digital signature and sends the abstract and the digital signature to the management center.

(7) The management center signs and sends a data report service starting order, generates an abstract and a digital signature, and sends the enterprise node (the abstract information is included in the block linked list).

(8) And the enterprise node confirms the starting service order and distributes each industrial terminal, the management center (the summary information is included in the block linked list) is fed back, the industrial terminal stops reporting the emergency disposal data, and normal reporting is recovered.

(9) And the management center receives the feedback of the starting service orders of all the enterprise nodes and forwards the industry supervision/use platform.

(10) The industry supervision/application platform receives the management center confirmation start feedback (summary information is included in the block linked list).

Further, a case that the industrial terminal fails may also occur, and for the case that the industrial terminal fails, as shown in fig. 4g, the following process is included:

(1) When a specific industrial terminal fails, the enterprise node informs the management center of the failure of the specific industrial terminal.

(2) And the enterprise node informs the cloud management platform and the industry supervision/application platform of the fault of the specific industrial terminal.

(3) And the cloud management platform and the industry supervision/application platform confirm the fault notification of the specific industrial terminal.

(4) And the specific industrial terminal restores to provide the service again normally.

(5) The enterprise node notifies the management center that the specific terminal resumes service.

(6) The industry regulatory/application platform validates the particular industrial terminal for recovery service.

In this embodiment, compared with the case that the industrial terminal directly reports the acquired data to the cloud management platform, the application platform and/or the industry supervision platform acquire the data from the cloud management platform, and the serial business processing flow of internal and external splitting of the enterprise is realized. Firstly, an enterprise node issues a terminal data submission (service) list through a management center based on an industrial terminal, a network and data resources; the application platform and/or the industry supervision platform form a service order through the management center; the enterprise node generates a data reporting instruction according to the service order and distributes the data reporting instruction to a data reporting gateway of a specified industrial terminal; the data delivery gateway is responsible for receiving and analyzing the enterprise node instructions, forming a plurality of message queues and completing data delivery preparation work; secondly, directly reporting data to a plurality of application platforms (including a cloud management platform) of a government industry supervision platform by an industrial terminal data reporting gateway based on an active identification carrier, and reporting important and emergency information to the application platforms, wherein the application platforms and/or the industry supervision platform data processing gateway receive the terminal reported data; and finally, submitting the charging information to a management center by the enterprise nodes, paying the cost by the application platform through the management center, and distributing the settlement cost to each enterprise node by the management center according to the service order execution condition. The method specifically comprises the steps of service order implementation, data reporting drilling, data reporting service flow and common fault processing flow.

Correspondingly, the embodiment of the present application further provides an industrial terminal, as shown in fig. 5, including a generating module 51 and a data transmitting module 52, wherein,

a generating module 51 configured to generate a plurality of message queues in response to a datagram instruction initiated by an enterprise node; the data reporting instruction carries a data reporting strategy, and the data reporting strategy comprises reporting data information and a plurality of corresponding target platforms;

a data transmission module 52, configured to transmit data corresponding to the reported data information to a plurality of corresponding target platforms respectively based on the plurality of message queues, where the target platforms include at least one of: an application platform, a cloud management platform, or an industry supervision platform.

In one embodiment, the data transmission module comprises:

and the active identification carrier is set to transmit data corresponding to the reported data information to the corresponding target platforms respectively according to the plurality of message queues based on the active identification carrier, so that after the target platforms receive the corresponding data, the target platforms call the active identification carrier information of the credible identification platform to verify the correctness of the active identification carrier, feed back a first verification result to the enterprise node, enable the enterprise node to generate first charging information based on the first verification result and submit the first charging information to a management center, and enable the management center to deduct the corresponding target platforms based on the first charging information.

In one embodiment, the apparatus further comprises:

an emergency data generation module configured to generate emergency disposition data based on the number of message queues;

the emergency data reporting module is configured to jump out of the data transmission module 52 and report the emergency disposition data to the corresponding target platforms when an emergency transmission instruction is received, so that the target platforms verify the correctness of the emergency disposition data based on a preset rule after receiving the corresponding data, feed back a second verification result to the enterprise node, enable the enterprise node to generate second charging information based on the second verification result, and enable the management center to deduct the corresponding target platforms based on the second charging information;

In one embodiment, the emergency data generation module includes:

the emergency handling encryption device comprises a receiving unit, a processing unit and a processing unit, wherein the receiving unit is used for receiving emergency handling encryption information forwarded by a management center, the emergency handling encryption information is generated by a corresponding target platform and is sent to the management center to be forwarded after being determined, and the emergency handling encryption information at least comprises secret key information and/or random codes;

the generating unit is used for generating emergency disposal data through encryption according to the emergency disposal encryption information based on the plurality of message queues;

In one embodiment, the apparatus further comprises:

and the synchronous transmission module is configured to generate emergency disposal data based on the plurality of message queues, and report the emergency disposal data to the corresponding plurality of target platforms when the data transmission module 52 transmits the data corresponding to the report data information to the corresponding plurality of target platforms.

It should be noted that, the industrial terminal provided in the present application can correspondingly implement all the method steps implemented by the industrial terminal in the foregoing method embodiment, and can achieve the same technical effect, and detailed descriptions of the same parts and beneficial effects as those of the method embodiment are not repeated herein.

Correspondingly, the embodiment of the present application also provides a multi-target reporting system for industrial data, as shown in fig. 6, which includes one or more industrial terminals 61, and one or more enterprise nodes 62 and a plurality of target platforms 63 electrically connected to the industrial terminals 61 respectively,

the enterprise node 62 is configured to generate a datagram instruction and send the datagram instruction to one or more corresponding industrial terminals 61;

the industrial terminal 61 is configured to generate a plurality of message queues in response to the data reporting instruction; the data reporting instruction carries a data reporting strategy, the data reporting strategy comprises reporting data information and a plurality of corresponding target platforms, and data corresponding to the reporting data information are transmitted to the plurality of corresponding target platforms respectively based on the plurality of message queues;

the target platform 63 includes at least one of: and the application platform, the cloud management platform or the industry supervision platform is used for receiving the data transmitted by the one or more industrial terminals.

In one embodiment, the enterprise node is further configured to generate a data delivery service list according to industrial terminal information, where the industrial terminal information includes at least one of: authority of industrial terminal, network resource of industrial terminal or data resource of industrial terminal

The system further comprises:

In one embodiment, the system further comprises:

and the management node is also used for receiving the first charging information and deducting the fee of the corresponding target platform based on the first charging information.

In some embodiments, the system can be expanded to include a plurality of enterprise nodes, a plurality of management centers and a plurality of trusted identification platforms, and a network structure which can be freely combined among the enterprise nodes, the management centers, the industry supervision platforms, the application platforms and the trusted identification platforms is formed; task scheduling, resource management and service gateways in the enterprise nodes are logic functional bodies and can be freely combined, the enterprise nodes can also be combined with a management center, the management center can also be split into a plurality of independent functional bodies and can be freely combined, and the trusted identification platform can be combined with the management center; in the example, the sequence of various data items is not limited, and the data items can be added or deleted to form effective association of information; the process links in the same physical entity can be combined and realized.

It should be noted that, the system provided in the present application can correspondingly implement all the method steps implemented in the method embodiments, and can achieve the same technical effects, and detailed descriptions of the same parts and beneficial effects as the method embodiments in this embodiment are not repeated herein.

The present application is an embodiment of the present application and correspondingly provides an electronic device, as shown in fig. 7, including a memory 71 and a processor 72:

the memory 71 stores computer-executable instructions;

the processor 72 executes the computer-executable instructions stored in the memory 71, so that the base station performs the multi-target reporting method of the industrial data.

It should be noted that, the electronic device provided in the present application can correspondingly implement all the method steps implemented by the industrial terminal in the above method embodiment, and can achieve the same technical effect, and detailed descriptions of the same parts and beneficial effects as those in the method embodiment are omitted here.

The embodiment of the present application correspondingly provides a computer-readable storage medium, in which computer-executable instructions are stored, and when the computer-executable instructions are executed by a processor, the computer-executable instructions are used to implement the multi-target reporting method for industrial data.

It should be noted that, the computer-readable storage medium provided in the present application can correspondingly implement all the method steps implemented by the industrial terminal in the foregoing method embodiment, and can achieve the same technical effect, and detailed descriptions of the same parts and beneficial effects as those of the method embodiment in this embodiment are not repeated herein.

It will be understood by those of ordinary skill in the art that all or some of the steps of the methods, systems, functional modules/units in the devices disclosed above may be implemented as software, firmware, hardware, and suitable combinations thereof. In a hardware implementation, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may be performed by several physical components in cooperation. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, digital signal processor, or microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit. Such software may be distributed on computer readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media).

The term computer storage media includes volatile and nonvolatile, removable and non-removable media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data, as is well known to those of ordinary skill in the art. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by a computer.

In addition, communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism and includes any information delivery media as known to those skilled in the art.

In the description of the embodiments of the present application, the term "and/or" merely represents an association relationship describing an associated object, and means that three relationships may exist, for example, a and/or B may represent: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the term "at least one" means any one of a plurality or any combination of at least two of a plurality, for example, including at least one of a, B, and may mean any one or more elements selected from the group consisting of a, B, and C communication. Further, the term "plurality" means two or more unless specifically stated otherwise.

In the description of the embodiments of the present application, the terms "first," "second," "third," "fourth," and the like (if any) are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein. Moreover, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand that: the technical solutions described in the foregoing embodiments may be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims

1. A multi-target reporting method of industrial data is characterized in that the method is applied to an industrial terminal and comprises the following steps:

2. The method according to claim 1, wherein the datagram instruction is generated after the enterprise node generates a datagram service list according to industrial terminal information and a management center determines the datagram service list; wherein the industrial terminal information includes at least one of: the authority of the industrial terminal, the network resource of the industrial terminal or the data resource of the industrial terminal.

3. The method of claim 1, wherein the transmitting data corresponding to the submission data information to a plurality of corresponding target platforms based on the plurality of message queues respectively comprises:

4. The method of claim 3, after generating the plurality of message queues, further comprising:

generating emergency disposition data based on the number of message queues;

5. The method of claim 4, wherein generating emergency treatment data based on the number of message queues comprises:

encrypting and generating emergency disposal data according to the emergency disposal encryption information based on the message queues;

6. The method of claim 1 or 3, after generating a number of message queues, further comprising:

7. An industrial terminal, comprising:

8. The multi-target reporting system of the industrial data is characterized by comprising one or more industrial terminals, one or more enterprise nodes and a plurality of target platforms which are respectively and electrically connected with the industrial terminals,

9. The system of claim 8, wherein the enterprise node is further configured to generate a datagram service manifest based on industrial terminal information, wherein the industrial terminal information includes at least one of: the authority of the industrial terminal, the network resource of the industrial terminal or the data resource of the industrial terminal, the system further comprises:

10. The system of claim 9, further comprising:

the enterprise node is further configured to generate first billing information based on the first verification result;

and the management center is also used for receiving the first charging information and deducting the corresponding target platform based on the first charging information.