CN115102872A

CN115102872A - Environment-friendly monitoring data self-proving system based on industrial internet identification analysis

Info

Publication number: CN115102872A
Application number: CN202210792571.8A
Authority: CN
Inventors: 余阳; 梁卓雄; 赵善挺; 曾昭沥; 冼国华; 黄汝东
Original assignee: Guangdong Ctsy Environmental Technology Co ltd
Current assignee: Guangdong Ctsy Environmental Technology Co ltd
Priority date: 2022-07-05
Filing date: 2022-07-05
Publication date: 2022-09-23
Anticipated expiration: 2042-07-05
Also published as: CN115102872B

Abstract

The invention provides an environment-friendly monitoring data self-proving system based on industrial internet identification analysis, which comprises: the node establishing module is used for establishing a secondary node for analyzing the industrial internet identification, and the secondary node is in butt joint with the enterprise node and the national top node; the data acquisition module is used for acquiring a first identifier corresponding to a monitoring service and acquiring environment-friendly monitoring data by using the secondary node based on the first identifier; the invention provides an environment-friendly monitoring data self-proving system based on industrial internet identification analysis, which is used for analyzing the monitoring service based on a second identification of the environment-friendly monitoring data to obtain a monitoring result of the monitoring service.

Description

Environment-friendly monitoring data self-proving system based on industrial internet identification analysis

Technical Field

The invention relates to the technical field of industrial internet identification, in particular to an environment-friendly monitoring data self-proving system based on industrial internet identification analysis.

Background

Currently, the fourth industrial revolution, characterized essentially by digitization, networking and intelligence, is emerging. The industrial internet is used as a product of deep integration of a new generation of information technology and manufacturing industry, a novel production manufacturing and service system with complete elements, a complete industrial chain and a complete value chain which are completely connected is constructed through the complete interconnection of people, machines and objects, the method is a realization way of digital transformation, and is key force for realizing the conversion of new and old kinetic energy.

The environmental protection industry is a general term for technical product development, commercial circulation, resource utilization, information services, engineering contract and the like in national economic structures for the purpose of preventing environmental pollution, improving ecological environment and protecting natural resources, and mainly includes three major aspects of environmental protection research and development and manufacturing, environmental protection engineering construction and environmental protection infrastructure operation.

The traditional detection to environmental protection monitoring data does not pass through the correlation of environmental protection thing networking and other fields thing networking, leads to the loaded down with trivial details difficulty of analysis to environmental protection monitoring data, can not effectively trace to the source to environmental protection monitoring data, leads to the data analysis and the management difficulty to monitoring service.

Disclosure of Invention

The invention provides an environment-friendly monitoring data self-proving system based on industrial internet identification analysis, which realizes accurate analysis of monitoring services based on identification on the basis of the industrial internet identification analysis.

An environmental monitoring data self-certification system based on industrial internet identification analysis comprises:

the node establishing module is used for establishing a secondary node for analyzing the industrial internet identification, and the secondary node is in butt joint with the enterprise node and the national top node;

the data acquisition module is used for acquiring a first identifier corresponding to a monitoring service and acquiring environment-friendly monitoring data by using the secondary node based on the first identifier;

and the data analysis module is used for analyzing the monitoring service based on the second identifier of the environment-friendly monitoring data to obtain a monitoring result of the monitoring service.

Preferably, the node establishing module includes:

the system comprises an establishing unit, a monitoring unit and a monitoring unit, wherein the establishing unit is used for acquiring enterprise nodes and national top nodes related to environmental protection monitoring, and establishing secondary nodes based on the mapping relation between the enterprise nodes and the national top nodes;

and the connecting unit is used for carrying out node distribution on the secondary node, the enterprise node and the national top level node based on the mapping relation to obtain the docking relation among the secondary node, the enterprise node and the national top level node, and establishing connection among the secondary node, the enterprise node and the national top level node based on the docking relation.

Preferably, the node establishing module further includes:

the transmission unit is used for transmitting the identification information according to the enterprise node and the national top level node to the secondary node;

the database establishing unit is used for extracting the data identification in the identification information and establishing a data identification database at the secondary node based on the data identification;

the database establishing unit is further configured to extract a service identifier in the identifier information, and establish a service identifier library at the secondary node based on the service identifier;

and the relation determining unit is used for determining the identification corresponding relation between the data identification library and the service identification library based on the identification information.

Preferably, the data obtaining module includes:

a target node determining unit, configured to obtain a first identifier corresponding to the monitoring service, and obtain a target secondary node matching the first identifier from the secondary nodes;

a service identifier determining unit, configured to analyze the monitoring service to obtain a monitoring service identifier, and obtain a target service identifier from a service database of the target secondary node based on the monitoring service identifier;

a data identifier determining unit, configured to obtain a data identifier library corresponding to the target service identifier and a target data identifier thereof based on an identifier correspondence between the environment-friendly identifier library and the service identifier library;

and the data extraction unit is used for extracting data from the environment-friendly data monitoring databases corresponding to the enterprise nodes and the national top level nodes based on the target data identification to obtain environment-friendly monitoring data.

Preferably, the data extraction unit includes:

the acquisition unit is used for acquiring a data extraction rule of a data identification database corresponding to the target service identification, and acquiring a target enterprise node and a target country top node corresponding to the target data identification;

and the extraction unit is used for extracting data from the environmental protection data monitoring database corresponding to the target enterprise node and the target country top level node point based on the data extraction rule to obtain environmental protection monitoring data.

Preferably, the acquiring unit includes:

the monitoring and determining unit is used for determining the data acquisition attribute and the control terminal of the data identifier database corresponding to the target service identifier;

the monitoring determining unit is also used for determining an environment monitoring site for data acquisition based on the target service identifier and determining a monitoring point for the environment monitoring site;

and the rule determining unit is used for determining a control instruction for the control terminal based on the data acquisition attribute and the monitoring point, and determining a data extraction rule based on the control instruction and the data acquisition attribute.

Preferably, the establishing unit includes:

the resource obtaining unit is used for determining a first butt-joint relation between the secondary node and a country top-level node based on the mapping relation, and obtaining a first environment-friendly data attribute of the country top-level node and a corresponding identification coding resource;

a service type determining unit, configured to determine, based on the first docking relationship, identifier allocation to the secondary node by using the first environment-friendly data attribute, perform identifier allocation to the secondary node by using the identifier encoding resource in combination with an identifier allocation result, and determine an identifier service type of the secondary node according to the identifier encoding resource allocation result;

a rule determining unit, configured to establish a first identifier interface between the secondary node and a top node of a country based on the identifier service type, and determine an encoding rule of the secondary node based on the first identifier interface and an identifier encoding resource allocation result;

the information acquisition unit is used for determining a second butt-joint relation between the secondary node and the enterprise node based on the mapping relation, and acquiring a second environment-friendly data attribute of the enterprise node and corresponding data information;

the coding type unit is used for matching the first environment-friendly data attribute with the second environment-friendly data attribute and determining the identification coding type of the data information of the enterprise node according to the matching result;

the identification relation determining unit is used for acquiring the corresponding relation between the identification coding type and the coding rule and determining the identification corresponding relation between the secondary node and the enterprise node;

an interface establishing unit, configured to establish a data correspondence between the obtained identifier encoding metadata of the secondary node and the data information based on the identifier correspondence, and establish a second identifier interface between the secondary node and the enterprise node based on the data correspondence;

and the node connecting unit is used for establishing connection between the secondary node and the enterprise node and the national top node based on the first identification interface and the second identification interface.

Preferably, the data analysis module includes:

the data dividing unit is used for dividing the identification attribute of the environment-friendly monitoring data based on a second identification of the environment-friendly monitoring data to obtain type monitoring data, and determining the monitoring index of the type monitoring data based on the identification attribute;

the weight determining unit is used for analyzing the monitoring service, determining monitoring parameters required by the monitoring result, and determining the influence node and the influence weight of each monitoring parameter on the monitoring result;

the distribution determining unit is used for establishing a node distribution map of the monitoring result based on the influence nodes, and marking the node distribution map by using the influence weight to obtain the influence distribution map;

the index determining unit is used for determining evaluation dimensions of the monitoring service based on the influence distribution map and determining an evaluation index under each evaluation dimension;

the model establishing unit is used for establishing a depth mining model for the monitoring data based on the dimension characteristics of each evaluation dimension and the evaluation characteristics of the evaluation indexes under the evaluation dimensions;

the data mining unit is used for determining the incidence relation between the monitoring index and the evaluation index, determining type monitoring data under the evaluation index according to the incidence relation, inputting the type monitoring data into a corresponding depth mining model, and determining target monitoring data and a data analysis result thereof under the evaluation index;

the evaluation unit is used for establishing a data portrait of the evaluation index based on the target monitoring data and the data analysis result thereof, and generating an evaluation result of the evaluation index under each evaluation dimension based on the data portrait;

and the result determining unit is used for integrating the evaluation results to the positions of the evaluation dimensions in the influence distribution map to obtain the monitoring results of the monitoring services.

Preferably, the data obtaining module further includes: the authentication unit is used for determining the authority of the user for acquiring the data based on the secondary node;

the authentication unit comprises:

the identification analysis unit is used for acquiring first identification information contained in the secondary node and analyzing the first identification information to obtain a first identification attribute value;

the identification analysis unit is further configured to determine a role of the user in the monitoring service, determine second identification information that the role can access, and analyze the second identification information to obtain a second identification attribute value;

an identification determination unit, configured to determine accessible identification information of the user to the secondary node based on the first identification information and the second identification information;

the authority determining unit is used for acquiring access data corresponding to the accessible identification information and determining the access authority value of the user to the access data based on the identity information of the user;

and the data determining unit is used for acquiring the access data of which the access right value is greater than a preset right value from the access data as the environment-friendly monitoring data of the monitoring service.

Preferably, the identification determination unit includes:

the association degree determining unit is used for determining the association degree of the first identification information and the second identification information;

and the identification screening unit is used for screening the target identification information with the association degree greater than the preset association degree from the first identification information as the accessible identification information.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a structural diagram of an environmental monitoring data self-certification system based on industrial internet identification parsing according to an embodiment of the present invention;

FIG. 2 is a block diagram of the node establishment module in an embodiment of the present invention;

fig. 3 is a structural diagram of the data acquisition module according to the embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it should be understood that they are presented herein only to illustrate and explain the present invention and not to limit the present invention.

Example 1

The embodiment of the invention provides an environment-friendly monitoring data self-proving system based on industrial internet identification analysis, as shown in fig. 1, comprising:

In this embodiment, the secondary node is an identification resolution public service node in an industry or an area, and can provide identification code registration and identification resolution services for the industry or the area, and complete related identification service management, identification application docking and the like.

In this embodiment, the enterprise node interfaces with the secondary node for providing service of allocating and parsing identification codes inside the enterprise.

In this embodiment, the country top node provides top-level identification code registration and identification resolution service for country/region orientation, and supports identification resolution across secondary nodes; mainly constructed at the national level.

In this embodiment, the first identifier is an identifier of a second-level node, an enterprise node, and a top-level node of a country determined by the monitoring service, and the second identifier is an identifier of environmental monitoring data.

In this embodiment, the monitoring service may be, for example, determination of pollution source, analysis of environmental quality and its cause, and the like.

The beneficial effect of above-mentioned design is: the industrial internet identification is obtained by establishing the secondary node, and the analysis and management of the environmental protection monitoring data under the monitoring service are realized on the basis of the analysis of the industrial internet identification, so that the accurate analysis of the monitoring service is ensured.

Example 2

On the basis of embodiment 1, an embodiment of the present invention provides an environmental monitoring data self-certification system based on industrial internet identifier resolution, where the node establishment module includes:

In this embodiment, the mapping relationship is a relationship between an enterprise node and a top node of a country determined by a correspondence between an enterprise identifier and a country identifier.

In this embodiment, the docking relationship is a docking between the secondary node and the enterprise node, and a docking between the secondary node and the top-level node of the country.

The beneficial effect of above-mentioned design is: the secondary nodes are reasonably deployed and established according to the mapping relation between the enterprise nodes and the national top-level nodes, so that the accuracy and the efficiency of the industrial internet identification analysis are ensured, and a basis is provided for the analysis and the management of the environmental monitoring data.

Example 3

Based on embodiment 2, an embodiment of the present invention provides an environmental monitoring data self-certification system based on industrial internet identifier resolution, and as shown in fig. 2, the node establishing module further includes:

In this embodiment, the identification information of the enterprise node is identification code distribution information and identification ring service information inside the enterprise.

In this embodiment, the identification information of the country top-level node is top-level identification code registration information and identification ring service information provided by a country.

The beneficial effect of above-mentioned design is: a data identification library and a business identification library of the second-level node are established according to the identification information of the enterprise node and the national top-level node, and a basis is provided for the identification analysis service of the monitoring task.

Example 4

Based on embodiment 1, an embodiment of the present invention provides an environmental monitoring data self-certification system based on industrial internet identification resolution, where the data acquisition module, as shown in fig. 3, includes:

In this embodiment, the first identifier is an attribute identifier of a monitoring service.

The beneficial effect of above-mentioned design is: the target secondary node is determined according to the identification of the monitoring service, the identification is subjected to sexual analysis service to obtain a target data identification, data extraction is carried out on the environmental protection data monitoring database corresponding to the enterprise node and the national top level node to obtain environmental protection monitoring data, and the accuracy and the efficiency of obtaining the environmental protection monitoring data are guaranteed.

Example 5

On the basis of the embodiment 4, the embodiment of the invention provides an environmental monitoring data self-certification system based on industrial internet identification analysis, and the data extraction unit comprises:

the acquisition unit is used for acquiring a data extraction rule of a data identifier database corresponding to the target service identifier, and acquiring a target enterprise node and a target country top node corresponding to the target data identifier;

and the extraction unit is used for extracting data from the environmental protection data monitoring databases corresponding to the target enterprise node and the target national top level node based on the data extraction rule to obtain environmental protection monitoring data.

In this embodiment, the data extraction rule may be, for example, light-weight modification and mobile modification of an integrated sensing and control terminal device deployed on an environment monitoring site in combination with actual requirements of ecological environment monitoring, emergency, law enforcement and pollution control, so as to ensure accuracy of data acquisition.

The beneficial effect of above-mentioned design is: by determining a reasonable data extraction rule, the accuracy of the obtained data is ensured, and a basis is provided for the analysis and management of the monitoring task.

Example 6

On the basis of embodiment 5, an embodiment of the present invention provides an environmental monitoring data self-certification system based on industrial internet identification resolution, where the obtaining unit includes:

In this embodiment, the data collection attribute may be, for example, online monitoring data, instrument status data, operating parameters, an operation log, and the like.

In this embodiment, the control terminal controls the data acquisition device, for example, controls the monitoring direction and the monitoring parameters.

In this embodiment, the data extraction rules are determined for data collection attributes and control directives for data collection.

The beneficial effect of above-mentioned design is: the data acquisition rule is determined according to the target service identifier, so that the accuracy of data acquisition by the target enterprise node and the target national top node is ensured, and the relevance and reliability of the acquired environment-friendly monitoring data and the monitoring service are ensured.

Example 7

On the basis of embodiment 2, an embodiment of the present invention provides an environmental monitoring data self-certification system based on industrial internet identification resolution, where the establishing unit includes:

a resource obtaining unit, configured to determine a first butting relationship between the second-level node and a country top-level node based on the mapping relationship, and obtain a first environment-friendly data attribute of the country top-level node and an identifier coding resource corresponding to the first environment-friendly data attribute;

a rule determining unit, configured to establish a first identifier interface between the secondary node and a top-level node of a country based on the identifier service type, and determine an encoding rule of the secondary node based on the first identifier interface and an identifier encoding resource allocation result;

an interface establishing unit, configured to establish a data correspondence between the obtained identifier coding metadata of the secondary node and the data information based on the identifier correspondence, and establish a second identifier interface between the secondary node and the enterprise node based on the data correspondence;

In this embodiment, the first environmental protection data attribute and the second environmental protection data attribute are, for example, monitoring data, status data, operation data, and the like.

In this embodiment, the identifier code resource provides a top-level identifier code registration and identifier resolution service resource for country/region.

In this embodiment, the identifier assignment of the secondary node is to determine the secondary node corresponding to each first environment-friendly data attribute according to the first butting relationship, and assign an identifier coding resource to the corresponding secondary node to obtain an identifier assignment result.

In this embodiment, the identifier service type is determined according to the identifier code resource allocation result, for example, the identifier code resource is identifier registration, and the corresponding service type is identifier registration; the identification coding resource is identification analysis service corresponding to the service type.

In this embodiment, the first identification interface is a hub for establishing a connection between the second level node and a top level node of a country.

In this embodiment, the encoding rule of the secondary node is an encoding allocation rule for the enterprise node.

In this example, the data information for the enterprise node includes monitoring data, status data, operational data, and the like.

In this embodiment, the identification coding type is based on data attributes, so that the coding of the data information conforms to national standards, industry standards, and the like.

In this embodiment, the identification correspondence is an identification correspondence between the encoding metadata and the data information between the secondary node and the enterprise node.

In this embodiment, the data correspondence is a correspondence of data between the secondary node and the enterprise node.

In this embodiment, the corresponding data information is encoded by using the encoding metadata, and the data information can be standardized, so as to facilitate the analysis and management of data.

The beneficial effect of above-mentioned design is: the identification interface between the second-level node and the enterprise node and between the national top-level node and the enterprise node are established according to the identification relationship and the data relationship between the second-level node and the enterprise node, and the identification interface is utilized to realize the consistency of identification between the second-level node and the enterprise node and between the national top-level node and the enterprise node, so that the communication between the nodes is facilitated, the standardization of monitoring environment-friendly data is realized, the analysis and management of the environment-friendly monitoring data are facilitated, and the accurate analysis of monitoring services is ensured.

Example 8

On the basis of embodiment 1, an embodiment of the present invention provides an environmental monitoring data self-certification system based on industrial internet identification analysis, where the data analysis module includes:

the data dividing unit is used for dividing the environmental protection monitoring data into identification attributes based on the second identification of the environmental protection monitoring data to obtain type monitoring data, and determining the monitoring index of the type monitoring data based on the identification attributes;

the model establishing unit is used for establishing a depth mining model for the monitoring data based on the dimensional characteristics of each evaluation dimension and the evaluation characteristics of the evaluation indexes under the evaluation dimensions;

The demonstration in this embodiment is as follows: when massive environmental monitoring data, instrument state data, equipment operation parameters, field operation logs, manual operation and maintenance records, pictures, videos and other data enter an environment-friendly big data platform, multidimensional analysis and deep mining are carried out according to time, regions, pollution factors, pollution discharge types, industries and industries of enterprises, instrument types, instrument fault types, operation and maintenance processing results and the like. And (3) constructing an environment data label library, and establishing 'one enterprise one file', 'one river one file' and 'one stop one file'. Establishing various figures, and carrying out perspective analysis on the environmental quality and the cause of each monitoring site, each pollution discharge enterprise, each river and each area.

The beneficial effect of above-mentioned design is: index division and multi-dimensional analysis are carried out on the environmental protection monitoring data according to the second identification of the environmental protection monitoring data, accurate analysis on monitoring services is guaranteed, and accuracy of monitoring results is guaranteed.

Example 9

On the basis of the embodiment 1, the embodiment of the invention provides an environmental monitoring data self-certification system based on industrial internet identification analysis, and the data acquisition module further comprises: the authentication unit is used for determining the authority of the user for acquiring the data based on the secondary node;

the authentication unit comprises:

the calculation formula of the access right value Q is as follows:

wherein, K _max Denotes the maximum difference value, K _min Representing the minimum difference value, n representing the number of attributes of the accessible identification information, C _i The value of a first identification attribute value representing the accessible identification information under the ith attribute is (-1, 1), K represents the identification attribute value of the user identity, and the value is (1, 10);

In this embodiment, the attribute of the accessible identification information may be, for example, an identification format attribute, an identification composition attribute, an identification code attribute, and the like, and the attribute values of different attributes correspond to different attribute contents and may be obtained by a preset rule.

In this embodiment, the maximum difference value and the minimum difference value are determined according to a sharing degree of the access data, and the larger the sharing degree is, the smaller the corresponding maximum difference value is, and the larger the minimum difference value is.

In this embodiment, the identifier attribute value of the user identity is determined according to the identity and the role of the user, and different identifier attribute values correspond to different access permissions of data.

In this embodiment of the present invention,

in this embodiment, for the formula

May be, for example, K _max ＝6，K _min ＝2，

Q is then 0.3.

The beneficial effect of above-mentioned design is: by arranging the authentication unit, the data accessible by the user under the monitoring task is determined according to the identification information of the secondary node and the identity information of the user, so that the access constraint and authority management of the user on the data are ensured, and the safety management on the environment-friendly monitoring data is ensured.

Example 10

On the basis of embodiment 9, an embodiment of the present invention provides an environmental monitoring data self-certification system based on industrial internet identifier resolution, where the identifier determining unit includes:

the calculation formula of the relevance sim (A, B) is as follows:

wherein A is _τ The identification weight of the first identification information is represented and takes the value of (0, 1), B _τ The identification weight of the second identification information is represented by (0, 1), n represents the number of attributes of the first representation information or the second identification information, A _i A first identification attribute value representing the first identification information under the ith attribute, the value of which is (-1, 1), B _i A second identifier attribute value representing the second identifier information under the ith attribute, which takes a value of (-1, 1);

In this embodiment, the attribute of the first identification information or the second identification information may be, for example, an identification format attribute, an identification composition attribute, an identification code attribute, and the like, and the attribute values of different attributes correspond to different attribute contents and may be obtained by a preset rule.

In this embodiment, the identification weight of the first identification information and the identification weight of the second identification information are determined by the identification code classification of the corresponding identification information.

In this embodiment, for the formula

It may be for example that,

sim(A,B)＝0.83。

the beneficial effect of above-mentioned design is: according to the attribute values of the first identification information and the second identification information, the accessible identification information of the user to the secondary node is determined, the accuracy of obtaining the accessible identification information is guaranteed, and a basis is provided for determining the data access authority of the user.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. An environmental monitoring data self-certification system based on industrial internet identification analysis is characterized by comprising:

2. The environmental monitoring data self-certification system based on industrial internet identity resolution of claim 1, wherein the node establishment module comprises:

3. The environmental monitoring data self-certification system based on industrial internet identity resolution of claim 2, wherein the node establishment module further comprises:

4. The environmental protection monitoring data self-certification system based on industrial internet identification resolution of claim 1, wherein the data acquisition module comprises:

and the data extraction unit is used for extracting data from the environmental protection data monitoring databases corresponding to the enterprise nodes and the national top level nodes based on the target data identification to obtain environmental protection monitoring data.

5. The environmental protection monitoring data self-certification system based on industrial internet identity resolution of claim 4, wherein the data extraction unit comprises:

6. The environmental monitoring data self-certification system based on industrial internet identity resolution according to claim 5, wherein the obtaining unit comprises:

7. The environmental monitoring data self-certification system based on industrial internet identity resolution according to claim 2, wherein the establishing unit comprises:

8. The environmental protection monitoring data self-certification system based on industrial internet identification resolution as claimed in claim 1, wherein the data analysis module comprises:

the data mining unit is used for determining the incidence relation between a monitoring index and an evaluation index, determining type monitoring data under the evaluation index according to the incidence relation, inputting the type monitoring data into a corresponding depth mining model, and determining target monitoring data under the evaluation index and a data analysis result thereof;

9. The environmental monitoring data self-certification system based on industrial internet identification resolution according to claim 1, wherein the data acquisition module further comprises: the authentication unit is used for determining the authority of the user for acquiring the data based on the secondary node;

the authentication unit comprises:

10. The environmental monitoring data self-certification system based on industrial internet identity resolution of claim 9, wherein the identity determination unit comprises: