CN115658742A - Identification analysis method and system for field-level active identification carrier - Google Patents

Abstract

The invention provides an identification analysis method and system of a field-level active identification carrier, and relates to the technical field of industrial internet identification analysis, wherein the method comprises the following steps of S1, collecting energy monitoring data of equipment through the field-level active identification carrier, and simultaneously registering a father identification; s2, acquiring state information in the parent identification, synchronizing parameters and time of a lower computer, and generating a code of the child identification according to the identification code and attribute information of the parent identification; s3, registering the child identifier according to the identifier object state or the associated task, and updating the attribute information of the parent identifier; and S4, information sharing is realized through the father identification information and the son identification information and by combining an identification analysis platform. The invention extends the identifier analysis platform from the current top level node, second level node and enterprise node service to the department node and station node, better meets the development requirement of the industrial internet and fully exerts the information sharing service value of the identifier analysis.

Description

Identification analysis method and system for field-level active identification carrier

Technical Field

The invention relates to the technical field of industrial internet identification analysis, in particular to an identification analysis method and system of a field-level active identification carrier.

Background

The industrial internet identification analysis is an important component of an industrial internet network system, and is a core key for supporting an infrastructure of industrial internet network interconnection and realizing industrial internet data sharing and sharing. The industrial internet identification carrier is a system device which can inquire the network position of a target object or related information according to an identification code, and uniquely positions and inquires information of a machine and an article. The system is a premise and a foundation for realizing accurate butt joint, product full-life-cycle management and intelligent service of a global supply chain system and an enterprise production system. The industrial internet identification carrier is divided into a passive identification carrier and an active identification carrier.

The traditional active identification carrier is used for endowing an identification code and recording identification carrier body data, and uploading the data to an industrial internet identification analysis node. An identification code corresponds to an identification message body, and provides sharable identification information sharing service for users through an industrial internet identification application platform. Although the identification analysis platform provides the functions of registration, analysis, update and deletion of the identification, the user can only see the last state information of a single identification carrier, and the history information or the information of the associated task cannot be directly acquired.

Chinese patent CN112200283B "trusted high-capacity identification carrier code assigning and reading system and method based on edge calculation" discloses a trusted high-capacity identification carrier code assigning and reading method based on edge calculation, which uses an encryption module and an index module to encrypt and restore identification information, and reduces server load, however, as science and technology rapidly develops, the processing capacity of the server is rapidly improved, and the server load does not need to be reduced, and at the same time, only the last state information of a single identification carrier can be seen, and the historical information and the information of associated tasks cannot be obtained, and the prior art increases cost while expanding capacity, and does not have practicability.

Disclosure of Invention

In view of the above, the present invention provides an identifier parsing method and system for a field-level active identifier carrier, which record history information or associated task information of an identifier object by using a hierarchical structure of parent-child identifiers, thereby solving a problem that a current identifier carrier can only display last state information but cannot display history information and associated task information.

The technical scheme of the invention is realized as follows: the invention provides an identification analysis method of a field-level active identification carrier, which comprises the following steps:

s1, collecting energy monitoring data of equipment through a field-level active identification carrier, and registering a father identification;

s2, acquiring state information in the parent identification, synchronizing parameters and time of a lower computer, and generating a child identification code according to the identification code and attribute information of the parent identification;

s3, according to the state of the identification object or the associated task registration sub-identification, updating the attribute information of the father identification;

and S4, information sharing is realized by combining the father identification information and the son identification information with an identification analysis platform.

Preferably, step S1 specifically includes:

when the field-level active identification carrier is powered on for use for the first time, the father identification is automatically registered to the enterprise node of the national industrial Internet identification system.

Preferably, step S1 specifically includes:

the field-level active identification carrier comprises a 2-path analog quantity acquisition module, a 2-path digital quantity output module and a 1-path 485 communication module; the field-level active identification carrier is used for bearing uniquely identified machines, products, algorithms and processes, and has the functions of security certificates, algorithms and information acquisition.

Preferably, step S2 specifically includes:

the attribute information in the father mark comprises the registration starting step number, length, manufacturer and date of the child mark, and the father mark and the child mark have the same data structure;

and defining the parent identification as the departure identification and the child identification as the deployment identification.

Preferably, step S3 specifically includes:

updating attribute information of the parent identification when the child identification registers the event; and when the parent identification information is inquired, a series of associated child identification information is synchronously obtained.

Preferably, step S4 specifically includes:

the parent identification generates an ontology code, the child identification generates an object code, the parent identification and the child identification transmit data and state information to the same recursive node according to the identification ID, and the data and the state information of the parent identification and the child identification are correlated with each other.

The invention also provides an identification analysis system of the field-level active identification carrier, which comprises a collector internally provided with the field-level active identification carrier, an industrial internet recursive node in communication connection with the collector, a client side in communication with the industrial internet recursive node, an industrial secondary node and a national top node, wherein the industrial secondary node is in communication connection with the national secondary node;

the collector with the built-in field-level active identification carrier is used for collecting energy monitoring data at the electromechanical equipment; the collector with the built-in field-level active identification carrier generates a father identification and a son identification, the field-level active identification carrier is in direct communication with the industrial internet recursive node and reports father identification and son identification information, and the caching of history information and associated task information is realized through a father and son identification structure of the identification node;

the industrial internet recursive node is used for responding to requests of identity authentication, identification registration, data updating, history information caching and associated task information caching of a field-level active identification carrier and synchronously updating identification registration information and energy monitoring data to an industry second-level node and a national top-level node.

Preferably, after the industrial internet recursive node is used for responding to requests of identity authentication, identification registration, data updating, history information caching and associated task information caching of a field-level active identification carrier and synchronously updating identification registration information and energy monitoring data to an industry second-level node and a country top-level node, the industrial internet recursive node also comprises a step of storing statistical information of corresponding sub-identifications through attribute information established by a father identification in the identification node so as to record identification object history information or associated task information;

expanding a department node under the enterprise node through the father identifier, and expanding a station node under the department node through the son identifier;

when an active identification carrier with parent-child level service capability is deployed to an enterprise department node, a parent identification records department information, and a child identification is used for identifying a department station or historical state information; the method comprises the steps that an active identification carrier with a parent-child level service capability is deployed to a station node, a parent identification records station information, and a child identification records station historical state or station product output information.

In a third aspect of the present invention, an electronic device is further provided, including: at least one processor, at least one memory, a communication interface, a bus;

the processor, the memory and the communication interface complete mutual communication through the bus; the memory stores program instructions executable by the processor which are invoked by the processor to implement the method of the first aspect of the invention.

In a fourth aspect of the present invention, there is also provided a computer-readable storage medium storing computer instructions for causing a computer to implement the method of the first aspect of the present invention.

Compared with the prior art, the identification analysis method and the identification analysis system of the field-level active identification carrier have the following beneficial effects that:

(1) Generating a parent identifier and a child identifier through a field-level active identifier carrier, and expanding an identifier carrier application scene from an enterprise node to a department node and a station node to accord with enterprise operation and maintenance logic;

(2) History information and associated task information of the identification object are cached through the father identification and the son identification, accidental loss is prevented, and high-precision measurement, analysis and calculation can be carried out through the history information and the associated task information;

(3) The identification analysis system is improved, the original single identification query is changed into the method that the son identification is queried through the father identification, the identification information is automatically associated, the efficiency of retrieval, use and analysis is improved, and a foundation is laid for data mining.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart of an identifier parsing method for a field-level active identifier carrier according to the present invention;

fig. 2 is a structural diagram of an identification resolution system of a field-level active identification carrier according to the present invention;

fig. 3 is a functional diagram of an identifier resolution system of a field-level active identifier carrier according to the present invention;

FIG. 4 is a logic flow diagram of the identifier resolution of a field-level active identifier carrier according to the present invention;

fig. 5 is an application scenario diagram of the identifier resolution of the field-level active identifier carrier according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Example one

An identifier parsing method for a field-level active identifier carrier is provided, as shown in fig. 1, including the following steps:

s1, collecting energy monitoring data of equipment through a field-level active identification carrier, and registering a father identification;

s2, acquiring state information in the parent identification, synchronizing parameters and time of a lower computer, and generating a child identification code according to the identification code and attribute information of the parent identification;

s3, according to the state of the identification object or the associated task, registering the child identification, and simultaneously updating the attribute information of the parent identification;

and S4, information sharing is realized by combining the father identification information and the son identification information with an identification analysis platform.

The method extends the identifier analysis platform from the top level node, the second level node and the enterprise node service to the department node and the station node, better meets the development requirement of the industrial internet and fully exerts the identifier analysis value.

The step S1 specifically includes:

when the field-level active identification carrier is powered on for use for the first time, the father identification is automatically registered to the enterprise node of the national industrial internet identification system.

The field-level active identification carrier comprises 2 paths of analog quantity acquisition modules, 2 paths of digital quantity output modules and 1 path of 485 communication module; the field-level active identification carrier is used for bearing uniquely identified machines, products, algorithms and procedures, and has the functions of security certificates, algorithms and information acquisition.

The step S2 specifically includes:

the attribute information in the father mark comprises the registration starting step number, length, manufacturer and date of the child mark, and the father mark and the child mark have the same data structure;

and defining the parent identification as the departure identification and the child identification as the deployment identification.

The parent identification and the child identification are defined differently, so that the association management is facilitated, and the device information association query is rapidly realized.

Step S3 specifically includes:

updating attribute information of the parent identification when the child identification registers the event; and when the parent identification information is inquired, a series of associated child identification information is synchronously obtained.

Step S4 specifically includes:

the parent identification generates a body code, the child identification generates an object code, the parent identification and the child identification send data and state information to the same recursion node according to the identification ID, and the data and the state information of the parent identification and the child identification are correlated.

The method establishes a virtual sub-carrier through a parent carrier, registers serialized sub-identifiers on an industrial internet identifier application platform, and realizes the history information of the identifier object or the information record of the associated task. The father carrier establishes certain attribute information and stores the statistical information of the child carrier, so that the father and child identification carrier tasks are associated. In the application of identifier analysis, the sequence sub-identifier information or the state of the process-associated task can be automatically and quickly acquired in batches through the parent identifier.

Example two

An identification resolution system of a field-level active identification carrier is provided, as shown in fig. 2, the system includes:

the system comprises a collector internally provided with a field-level active identification carrier, an industrial internet recursive node in communication connection with the collector, a client side in communication with the industrial internet recursive node, an industry secondary node and a country top node, wherein the industry secondary node is in communication connection with the country secondary node;

the collector with the built-in field-level active identification carrier is used for collecting energy monitoring data at the electromechanical equipment; the collector with the built-in field-level active identification carrier generates a father identification and a son identification, the field-level active identification carrier is in direct communication with the industrial internet recursive node and reports father identification and son identification information, and the caching of history information and associated task information is realized through a father-son identification structure of the identification node;

the industrial internet recursive node is used for responding to requests of identity authentication, identification registration, data updating, history information caching and associated task information caching of a field-level active identification carrier and synchronously updating identification registration information and energy monitoring data to an industry second-level node and a national top-level node.

Storing statistical information corresponding to the sub-identifiers through attribute information established by the parent identifiers in the identifier nodes to realize the recording of historical information or associated task information of the identifier objects;

expanding a department node under the enterprise node through the father identifier, and expanding a station node under the department node through the son identifier;

when an active identification carrier with parent-child hierarchy service capability is deployed to an enterprise department node, a parent identification records department information, and a child identification is used for identifying department stations or historical state information; the method comprises the steps that an active identification carrier with a parent-child level service capability is deployed to a station node, a parent identification records station information, and a child identification records station historical state or station product output information. Because the parent-child codes have consistent structures, the relationship between departments and station levels is better met.

For example, 88.195.985/FII2.YF.000000000 is coded as a father ID, 88.195.985/FII2.YF.000000001, 88.195.985/FII2.YF.000000002, \ 8230 \ 88.195.985/FII2.YF.00000000N is a child ID, wherein 88 is a top node, 195 is a second level node, 985 is an enterprise node, FII2 is a department node, YF is a workstation node, the next 9 bits are history data, and the mark codes comprise extensions from the top level node to the second level node, the enterprise node, the department node and the workstation node, and the history data.

As shown in fig. 3, the system function diagram is a system function diagram of an identifier parsing method for a field-level active identifier carrier according to the present invention, in which an identifier function is divided into three parts, which are delivery information and are mainly configured with delivery related information of an active identifier carrier device; user configuration, which is mainly used for configuring user-defined parameter information and adjusting according to the actual operation scene of a user; the equipment collects data, and mainly stores the energy data collected by the field-level active identification carrier collecting equipment in real time.

EXAMPLE III

An electronic device is provided for detecting the make-up torque in oil exploitation, and an identification analysis logic flow chart of a field-level active identification carrier inside the electronic device is shown in fig. 4:

the method comprises the steps of starting a process, enabling equipment to run in a power-on mode, firstly requesting an industrial Internet identification analysis platform to inquire whether a father identification exists, registering the father identification if the father identification does not exist, acquiring energy monitoring data of the equipment, then acquiring state information of the father identification, extracting identification codes and attribute information from the acquired father identification information, and simultaneously synchronizing parameters and time of a lower computer to register. The registration mode is divided into two types, namely object state triggering and task logic triggering, and after one triggering mode is selected, a child identifier code is generated, a child identifier is registered, and finally, the attribute information of a father identifier is updated. And (3) circulating the process from the step of collecting the equipment energy monitoring data to the step of updating the father identification attribute information until the process is finished, and realizing information sharing by using the father identification information and the son identification information and combining the identification analysis platform in the running process of the equipment.

The specific application process is as shown in fig. 5, firstly registering a parent identifier through a field-level active identifier carrier, then sending a request for analyzing the parent identifier to a recursion node, the recursion node sending the obtained parent identifier code and attribute information back to the field-level active identifier carrier, generating and extracting a child identifier code through internal analysis, then sending the child identifier code to the recursion node so as to register the child identifier, and simultaneously updating the attribute information of the parent identifier.

The customer can realize the purposes of real-time monitoring of petroleum torque measurement and control, playback of a torque measurement and control historical curve, field test video monitoring and classification and statistics of torque measurement and control through the equipment.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. An identification analysis method for a field-level active identification carrier is characterized by comprising the following steps:

s1, collecting energy monitoring data of equipment through a field-level active identification carrier, and registering a father identification;

s2, acquiring state information in the parent identification, synchronizing parameters and time of a lower computer, and generating a child identification code according to the identification code and attribute information of the parent identification;

s3, according to the state of the identification object or the associated task, registering the child identification, and simultaneously updating the attribute information of the parent identification;

and S4, information sharing is realized by combining the father identification information and the son identification information with an identification analysis platform.

2. The method for analyzing the identifier of the field-level active identifier carrier according to claim 1, wherein the step S1 specifically includes:

when the field-level active identification carrier is powered on for use for the first time, the father identification is automatically registered to the enterprise node of the national industrial Internet identification system.

3. The method for analyzing the identifier of the field-level active identifier carrier according to claim 2, wherein the step S1 specifically includes:

the field-level active identification carrier comprises 2 paths of analog quantity acquisition modules, 2 paths of digital quantity output modules and 1 path of 485 communication module; the field-level active identification carrier is used for bearing uniquely identified machines, products, algorithms and procedures, and has the functions of security certificates, algorithms and information acquisition.

4. The method for analyzing the identifier of the field-level active identifier carrier according to claim 3, wherein the step S2 specifically includes:

the attribute information in the father mark comprises the registration starting step number, length, manufacturer and date of the child mark, and the father mark and the child mark have the same data structure;

and defining the parent identification as the departure identification and the child identification as the deployment identification.

5. The method for analyzing the identifier of the field-level active identifier carrier according to claim 4, wherein the step S3 specifically includes:

updating attribute information of the parent identification when the child identification registers the event; and when the parent identification information is inquired, a series of associated child identification information is synchronously obtained.

6. The method for analyzing the identifier of the field-level active identifier carrier according to claim 5, wherein the step S4 specifically includes:

the parent identification generates an ontology code, the child identification generates an object code, the parent identification and the child identification transmit data and state information to the same recursive node according to the identification ID, and the data and the state information of the parent identification and the child identification are correlated with each other.

7. An identification analysis system of a field-level active identification carrier is characterized by comprising a collector internally provided with the field-level active identification carrier, an industrial internet recursive node in communication connection with the collector, a client side in communication with the industrial internet recursive node, an industry secondary node and a country top-level node, wherein the industry secondary node is in communication connection with the country secondary node;

the collector with the built-in field-level active identification carrier is used for collecting energy monitoring data at the electromechanical equipment; the collector with the built-in field-level active identification carrier generates a father identification and a son identification, the field-level active identification carrier is in direct communication with the industrial internet recursive node and reports father identification and son identification information, and the caching of history information and associated task information is realized through a father and son identification structure of the identification node;

the industrial internet recursive node is used for responding to requests of identity authentication, identity registration, data updating, history information caching and associated task information caching of a field-level active identity carrier and synchronously updating identity registration information and energy monitoring data to an industrial second-level node and a national top-level node.

8. The system according to claim 7, wherein the industrial internet recursive node is configured to respond to requests for identity authentication, identity registration, data update, history information caching, and associated task information caching of the field-level active identity carrier, and update the identity registration information and the energy monitoring data to the industry second-level node and the country top-level node synchronously, and further comprises a step of storing statistical information corresponding to the sub-identifiers by using attribute information established by the parent identifier in the identifier node, so as to record history information or associated task information of the identified object;

expanding a department node under the enterprise node through the father identifier, and expanding a station node under the department node through the son identifier;

when an active identification carrier with parent-child hierarchy service capability is deployed to an enterprise department node, a parent identification records department information, and a child identification is used for identifying department stations or historical state information; and deploying an active identification carrier with a parent-child level service capability to a station node, wherein the parent identification records station information, and the child identification records station historical state or station output product information.

9. An electronic device, comprising: at least one processor, at least one memory, a communication interface, a bus;

the processor, the memory and the communication interface complete mutual communication through the bus; the memory stores program instructions executable by the processor, which are invoked by the processor to implement the method of any one of claims 1 to 6.

10. A computer readable storage medium storing computer instructions for causing a computer to implement a method as claimed in any one of claims 1 to 6.

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