CN115001984A

CN115001984A - Industrial level topological graph drawing method and device, terminal device and storage medium

Info

Publication number: CN115001984A
Application number: CN202210941169.1A
Authority: CN
Inventors: 申志明
Original assignee: Beijing 6Cloud Technology Co Ltd; Beijing 6Cloud Information Technology Co Ltd
Current assignee: Beijing 6Cloud Technology Co Ltd; Beijing 6Cloud Information Technology Co Ltd
Priority date: 2022-08-08
Filing date: 2022-08-08
Publication date: 2022-09-02

Abstract

The invention discloses a method and a device for drawing an industrial level topological graph, terminal equipment and a storage medium, belonging to the field of industrial control asset management, wherein the method for drawing the industrial level topological graph comprises the following steps: obtaining data related to the industrial assets from the industrial network; determining the related attributes of the industrial assets according to the related data of the industrial assets; determining a first industrial level of the industrial assets in an industrial level topological graph according to the relevant mapping of the relevant attributes of the industrial assets and a preset industrial level; and drawing the industrial level topological graph according to the related data of the industrial assets, the preset industrial level and the first industrial level. According to the method, the related data of the industrial assets in the industrial network are obtained, the industrial hierarchy division is carried out on the industrial assets, the network asset topological graph in the industrial network environment is comprehensively drawn, and related personnel are assisted to more comprehensively and clearly understand the condition of the industrial network assets.

Description

Industrial level topological graph drawing method and device, terminal device and storage medium

Technical Field

The invention relates to the field of industrial control asset management, in particular to a method and a device for drawing an industrial level topological graph, terminal equipment and a storage medium.

Background

In recent years, technologies such as mobile internet, internet of things, big data, artificial intelligence and the like begin to enter the industrial field, IT (Information Technology) and OT (Operational Technology) are deeply fused in all directions, so that the industrial internet is promoted to be developed vigorously, meanwhile, industrial network asset management also becomes one of the focuses of people attention, a network topology can convert the real world relationship into a point-and-line connection mode for displaying, and the network topology is almost a necessary function in products of network asset management platforms.

The network asset topological graph in the existing network asset management platform has three display ideas: the first is to connect the devices in the network according to the flow access relation of the devices, and most of the devices are connected with the switches, routers, firewalls and the like which are used as central nodes; the second is that according to the network hierarchy relation, the firewall is connected to the core switch, then to the convergence layer switch, then to the access layer switch, and finally to the concrete equipment; and the third is to divide the assets according to the user organization structure and perform tree-shaped display, such as main factory, branch factory, workshop and production line. All three show the assets in the field in a network environment. However, the industrial scenario is not only an IT network but also an OT network, and the existing network asset topology does not fully show hardware and software in the industrial network, and cannot help related personnel to better understand network assets in the industrial network environment, which brings inconvenience to related personnel using the network asset management platform.

Therefore, how to comprehensively draw a network asset topological graph in an industrial network environment and assist related personnel to more comprehensively and clearly understand the condition of the industrial network asset is a problem to be solved urgently.

Disclosure of Invention

The application mainly aims to provide a method, a device, a terminal device and a storage medium for drawing an industrial level topological graph, and aims to solve the problems that how to comprehensively draw a network asset topological graph in an industrial network environment and assist related personnel to more comprehensively and clearly understand the condition of industrial network assets.

In order to achieve the above purpose, the present application provides a method for drawing an industrial level topological graph, which is applied to the technical field of industrial control asset management, and the method for drawing the industrial level topological graph includes the following steps:

acquiring relevant data of industrial assets from an industrial network;

determining the related attributes of the industrial assets according to the related data of the industrial assets;

determining a first industrial level of the industrial assets in an industrial level topological graph according to the relevant mapping of the relevant attributes of the industrial assets and a preset industrial level;

and drawing the industrial level topological graph according to the related data of the industrial assets, the preset industrial level and the first industrial level.

Optionally, the step of obtaining data related to the industrial asset from the industrial network includes:

obtaining, by an asset discovery engine and/or a traffic analysis engine, data related to an industrial asset from the industrial network.

Optionally, the step of determining the relevant attributes of the industrial asset according to the relevant data of the industrial asset includes:

and determining the type of the industrial asset and/or determining a home network segment of the industrial asset by a data flow and/or asset mapping engine according to the related data of the industrial asset.

Optionally, the step of determining a first industrial level of the industrial asset in an industrial level topological graph according to the related mapping between the related attribute of the industrial asset and a preset industrial level comprises:

and determining a first industrial level corresponding to the industrial asset according to the type of the industrial asset and a preset type-industrial level mapping relation and/or according to the home network segment of the industrial asset and a preset network segment-industrial level mapping relation.

Optionally, the step of drawing the industry level topological graph according to the related data of the industrial assets, the preset industry level and the first industry level comprises:

determining the names of the industrial assets according to the related data of the industrial assets and a preset name-feature data mapping table in sequence;

obtaining a model diagram of the industrial asset according to the name of the industrial asset and a preset name-model diagram mapping table and the sequence;

calculating the size of a target canvas, relevant coordinate information and information of a layering line according to the name and model diagram of the industrial asset, the first industrial level, the preset industrial level and the sequence;

and drawing the industrial level topological graph according to the size and the relevant coordinate information of the target canvas, the information of the hierarchical line, the name of the industrial asset and the model graph.

Optionally, the step of calculating the size of the target canvas, the related coordinate information and the information of the hierarchical line according to the name and model diagram of the industrial asset, the first industrial level, the preset industrial level and the sequence includes:

calculating the height of the target canvas, the coordinate information of the hierarchical line, the coordinate information of the name of the industrial level and the vertical coordinate information of the model map according to the height of the model map of the industrial asset, the first industrial level, the sequence and the preset longitudinal graphic interval;

calculating the width of the target canvas, the length of the layering line and the abscissa information of the model map according to the width of the model map of the industrial asset, the first industrial level, the sequence and a preset lateral graphic interval;

calculating coordinate information of the name of the model map according to the horizontal and vertical coordinates of the model map of the industrial asset;

and calculating coordinate information of an arrow pointing to the model diagram according to the horizontal and vertical coordinates of the model diagram of the industrial asset and the coordinate information of the hierarchical line.

The embodiment of the present application further provides a device for drawing an industrial level topological graph, where the device for drawing an industrial level topological graph includes:

the acquisition module is used for acquiring relevant data of industrial assets from an industrial network;

the type module is used for determining the related attributes of the industrial assets according to the related data of the industrial assets;

the hierarchy module is used for determining a first industrial hierarchy of the industrial asset in an industrial hierarchy topological graph according to the related mapping between the related attribute of the industrial asset and a preset industrial hierarchy;

and the drawing module is used for drawing the industrial level topological graph according to the related data of the industrial assets, the preset industrial level and the first industrial level.

The implementation case of the present application further provides a terminal device, where the terminal device includes a memory, a processor, and a drawing program of an industrial-level topology map that is stored in the memory and is executable on the processor, and the drawing program of the industrial-level topology map is executed by the processor to implement the steps of the drawing method of the industrial-level topology map.

The embodiment of the application also provides a storage medium, wherein a drawing program of the industrial level topological graph is stored on the storage medium, and the drawing program of the industrial level topological graph realizes the steps of the drawing method of the industrial level topological graph when being executed by a processor.

According to the scheme, the embodiment specifically obtains the relevant data of the industrial assets from the industrial network; determining the related attributes of the industrial assets according to the related data of the industrial assets; determining a first industrial level of the industrial assets in an industrial level topological graph according to the relevant mapping of the relevant attributes of the industrial assets and a preset industrial level; and drawing the industrial level topological graph according to the related data of the industrial assets, the preset industrial level and the first industrial level. According to the scheme, the related data of the industrial assets in the industrial network are obtained, the industrial hierarchy of the industrial assets is divided, the industrial hierarchy topological graph of the industrial network assets is more comprehensively drawn, and related personnel are helped to better understand the condition of the current industrial network assets.

Drawings

FIG. 1 is a diagram of a prior art smart manufacturing system architecture;

FIG. 2 is a functional module diagram of a terminal to which the method for drawing an industrial level topology map of the present application belongs;

FIG. 3 is a schematic flow chart diagram illustrating a first exemplary embodiment of a method for industrial level topology mapping according to the present application;

FIG. 4 is a schematic flow chart diagram illustrating a second exemplary embodiment of a method for industrial level topology mapping according to the present application;

FIG. 5 is a schematic flow chart diagram illustrating a third exemplary embodiment of a method for industrial level topology mapping according to the present application;

FIG. 6 is a schematic flow chart diagram illustrating a fourth exemplary embodiment of a method for industrial level topology mapping according to the present application;

FIG. 7 is a schematic flow chart diagram illustrating a fifth exemplary embodiment of a method for industrial level topology mapping according to the present application;

FIG. 8 is a schematic flow chart diagram illustrating a sixth exemplary embodiment of a method for industrial level topology mapping according to the present application;

FIG. 9 is a display diagram of an industry level topology as drawn by an embodiment of the present application.

The implementation, functional features and advantages of the objectives of the present application will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The main solution of the embodiment of the application is to obtain the relevant data of the industrial assets from the industrial network; determining the related attributes of the industrial assets according to the related data of the industrial assets; determining a first industrial level of the industrial assets in an industrial level topological graph according to the relevant mapping of the relevant attributes of the industrial assets and a preset industrial level; and drawing the industrial level topological graph according to the related data of the industrial assets, the preset industrial level and the first industrial level. According to the scheme, the related data of the industrial assets in the industrial network are obtained, the industrial hierarchy of the industrial assets is divided, the industrial hierarchy topological graph of the industrial network assets is more comprehensively drawn, and related personnel are helped to better understand the condition of the current industrial network assets.

The technical terms related to the embodiments of the present application are:

the enterprise system and the control system inherit the international standard: ISA-95, ISANSI/ISA-95 Enterprise-

Control System Integration; industry 4.0 reference architecture model: RAMI4.0, Reference Architecture Model Industrie 4.0;

IMSA, Intelligent Manufacturing System Architecture.

In which, Enterprise systems and Control systems inherit International standards (ISA-95, ISANSI/ISA-95 Enterprise-Control System Integration) and were approved by the International Society of Automation (ISA) in 1995. The development process of the standard is supervised by ANSI (american national standards institute) and its process is guaranteed to be correct. ISA-95 is not a standard, but a series of standards developed by the ISA. The ISA-95 standard is described from the information system architecture level, namely the well-known ISA-95 five-layer architecture: layer 0: actual production process, 1 layer: production process perception layer, 2 layers: automation of the production process, 3 layers: MOM manufacturing operation automation, layer 4: and (4) an enterprise operation logic layer. From a component or software perspective, layers 1 to 4 may be as follows: 1 layer: smart device, layer 2: control system, layer 3: manufacturing operation system, level 4: a commercial logistics system.

ISA-95 covers process manufacturing and discrete manufacturing for the purpose of normalizing information flow between enterprise business and factory production operations using generic terms and models, reducing integration costs and risks between production control systems, and simplifying integration operations.

Industry 4.0 Reference Architecture Model (RAMI 4.0, Reference Architecture Model industry 4.0), is a framework Model that describes industry 4.0 from three dimensions, product lifecycle/value chain, hierarchy and Architecture level, respectively, in multiple angles. The first dimension of the RAMI4.0 is based on the standard of IEC 62264 enterprise system hierarchical architecture (the standard is an ISA-95 model based on university, defines the integrated standard of each level of an enterprise control system, a management system and the like), supplements the content of products or workpieces, and is expanded to the 'connected world' from an individual factory, thereby reflecting the requirement of industry 4.0 on product service and enterprise cooperation; the second dimension is a core function of the information physical system, and the second dimension is embodied by functions of each layer, and specifically comprises the following steps: the asset layer refers to some entity elements such as sensors and the like; the integration layer refers to data conversion, a human-computer interface and the like of the physical world, and the communication layer refers to a professional network architecture and the like; the information layer refers to the process of processing and analyzing data; the functional layer is an integrated platform for enterprise operation management; the business layer refers to various business modes, business processes, task issuing and the like, and embodies various business activities of manufacturing enterprises. The third dimension is the value chain, which describes the overall process of industrial elements, typically represented by parts, machines and factories, from virtual prototypes to physical objects, from a product's full lifecycle perspective.

Currently, the industrial 4.0 reference architecture model has covered the fields related to industrial network communication, information data, value chains, enterprise layering, and the like. The adoption of the existing standard is helpful for improving the universality of the reference framework, so that enterprises in different industries can be guided to develop industrial 4.0 practice more widely.

An Intelligent Manufacturing System Architecture (IMSA) describes contents of activities, equipment, features and the like related to Intelligent Manufacturing from three dimensions of a life cycle, a System level and Intelligent features, is mainly used for determining standardized requirements, objects and ranges of Intelligent Manufacturing and guiding the construction of a national Intelligent Manufacturing standard System, and specifically, as shown in fig. 1, the life cycle dimensions refer to various stages from the development of product prototype to the recycling and remanufacturing of products, including a series of interrelated value creation activities such as design, production, logistics, sales, services and the like. Each activity of the life cycle can be iteratively optimized, so that the method has the characteristics of sustainable development and the like, and the life cycles of different industries are different in composition; the system level dimension refers to the level division of an organization structure related to enterprise production activities, and comprises an equipment layer, a unit layer, an inter-vehicle layer, an enterprise layer and a coordination layer; the intelligent characteristic dimension refers to the characteristics of functions of self-perception, self-decision, self-execution, self-learning, self-adaptation and the like of the manufacturing activity, and comprises 5 layers of intelligent requirements of resource elements, interconnection, fusion and sharing, system integration, emerging business states and the like.

The embodiment of the invention combines the common points of the three architectures to provide an industrial level, wherein the industrial level comprises five layers which are respectively as follows: the five-layer architecture of the field device layer, the field control layer, the process monitoring layer, the production management layer and the enterprise resource layer will be explained in detail later.

Specifically, referring to fig. 2, fig. 2 is a schematic diagram of functional modules of a terminal device to which a drawing apparatus of an industrial level topology map of the present application belongs. The device for drawing the industrial level topological graph is based on the terminal equipment, can acquire industrial assets on an industrial network, performs layering so as to comprehensively draw the network asset topological graph in the industrial network environment, assists related personnel to more comprehensively and clearly understand the conditions of the industrial network assets, and can be borne on the terminal equipment in a hardware or software mode.

In this embodiment, the terminal device to which the drawing apparatus of the industrial level topology belongs at least includes an output module 110, a processor 120, a memory 130, and a communication module 140.

The memory 130 stores therein an operating system and a drawing program of an industrial-level topology map, which is used by the drawing apparatus to obtain data related to industrial assets from an industrial network; determining the related attributes of the industrial assets according to the related data of the industrial assets; determining a first industrial level of the industrial assets in an industrial level topological graph according to the relevant mapping of the relevant attributes of the industrial assets and a preset industrial level; drawing information such as a topological graph of the industrial level according to the related data of the industrial asset, the preset industrial level and the first industrial level, and storing the information in the memory 130; the output module 110 may be a display screen or the like. The communication module 140 may include a WIFI module, a mobile communication module, a bluetooth module, and the like, and communicates with an external device or a server through the communication module 140.

Wherein the drawing program of the industrial level topology map in the memory 130, when executed by the processor, implements the steps of:

obtaining data related to the industrial assets from the industrial network;

Further, the drawing program of the industrial level topology map in the memory 130 when executed by the processor further implements the steps of:

Further, the drawing program of the industrial-level topology map in the memory 130 when executed by the processor further implements the steps of:

Further, the drawing program of the industrial level topology map in the memory 130 is executed by the processor

The following steps are also implemented:

Based on the above terminal device architecture but not limited to the above architecture, embodiments of the method of the present application are provided.

Referring to fig. 3, fig. 3 is a flowchart illustrating a first exemplary embodiment of a method for drawing an industrial level topology map. The drawing method of the industrial level topological graph comprises the following steps:

step S110, acquiring relevant data of industrial assets from an industrial network;

specifically, the industrial network is an IP address space, a domain name space and a key network node area in a preset network of related personnel, and related data of the industrial assets can be acquired from the industrial network through an asset discovery engine and/or a traffic analysis engine, wherein the related data of the industrial assets comprise data such as IP addresses, communication protocols, ports and the like.

Step S130, determining the related attributes of the industrial assets according to the related data of the industrial assets;

specifically, the type of the industrial asset is determined and/or the home network segment of the industrial asset is determined by a data flow and/or asset mapping engine according to the related data of the industrial asset.

Step S150, determining a first industrial level of the industrial asset in an industrial level topological graph according to the relevant mapping between the relevant attribute of the industrial asset and a preset industrial level;

specifically, a first industrial level corresponding to the industrial asset is determined according to the type of the industrial asset and through a preset type-industrial level mapping relationship and/or according to the home network segment of the industrial asset and through a preset network segment-industrial level mapping relationship.

Step S170, drawing the industrial level topological graph according to the related data of the industrial assets, the preset industrial level and the first industrial level.

Specifically, determining the names of the industrial assets according to the related data of the industrial assets and a preset name-feature data mapping table in sequence; obtaining a model diagram of the industrial asset according to the name of the industrial asset and a preset name-model diagram mapping table and the sequence; calculating the size of a target canvas, relevant coordinate information and information of a layering line according to the name and model diagram of the industrial asset, the first industrial level, the preset industrial level and the sequence; and drawing the industrial level topological graph according to the size and the relevant coordinate information of the target canvas, the information of the hierarchical line, and the name and the model graph of the industrial asset.

According to the scheme, the embodiment specifically obtains the relevant data of the industrial assets from the industrial network; determining the related attributes of the industrial assets according to the related data of the industrial assets; determining a first industrial level of the industrial assets in an industrial level topological graph according to the relevant mapping of the relevant attributes of the industrial assets and a preset industrial level; and drawing the industrial level topological graph according to the related data of the industrial assets, the preset industrial level and the first industrial level. Based on the scheme, the type, the name and the model diagram of the industrial asset are determined by acquiring the related data of the industrial asset in the network environment preset by related personnel, the industrial asset is divided into industrial levels, the industrial level topological diagram of the industrial network asset is more comprehensively drawn, the current industrial network asset is displayed, and the related personnel can better understand the condition of the current industrial network asset.

Further, referring to fig. 4, fig. 4 is a flowchart illustrating a second exemplary embodiment of a method for drawing an industrial hierarchy topology, wherein the step of obtaining data related to industrial assets from an industrial network includes:

step S1101, acquiring relevant data of an industrial asset from the industrial network through an asset discovery engine and/or a traffic analysis engine;

specifically, the asset discovery engine may obtain, in an active detection manner, asset-related data in the current industrial network, such as data of an IP address, a communication protocol, a port, and feature fields of different messages; the detection mode is to send a request through ping, tracert, route and other modes, analyze a returned data message and acquire related data of the industrial network assets or acquire the related data through an asset discovery engine realized by other prior arts; the flow analysis engine does not need to actively send a request for detection, but disassembles and analyzes the message data by receiving the message data forwarded by the switch in the network, so as to obtain data such as Ip addresses, communication protocols, ports, and feature fields of different messages, or analyzes the message by the flow analysis engine realized by other prior art, so as to obtain related data of industrial assets.

According to the scheme, the related data of the industrial assets are acquired from the industrial network through the asset discovery engine; and/or obtaining data related to the industrial asset from the industrial network through a traffic analysis engine. Based on the scheme, the related data of the industrial assets in the network are detected in an active or passive mode, the existing industrial assets in the network are comprehensively acquired, and data support is provided for further confirmation of the industrial assets in the follow-up process.

Further, referring to fig. 5, fig. 5 is a schematic flow chart of a third exemplary embodiment of a method for drawing an industrial level topology map, wherein the step of determining the relevant attributes of the industrial assets according to the relevant data of the industrial assets comprises:

step S1301, according to the related data of the industrial assets, the type of the industrial assets is determined through a data flow direction and/or an asset mapping engine and/or a home network segment of the industrial assets is determined.

Specifically, the asset engine sequentially sends messages to the related data of the industrial assets, analyzes the returned message data to obtain more detailed related data of the industrial assets, and compares the more detailed related data of the industrial assets with the feature data of different asset types in the feature database, so as to determine the types of the industrial assets; if the type of the industrial asset cannot be determined by the asset engine; judging the industrial asset types of the sending and receiving messages by the aid of acquired related data of the industrial assets, protocol types and characteristic data, and determining the industrial asset types of a specific sending party and a specific receiving party according to the data flow direction, wherein the industrial asset types comprise PLC (programmable logic controller) equipment, MES (manufacturing execution system) equipment and the like; if the network segment to which the IP address of the industrial asset in the current industrial network belongs is divided according to the industrial level, the network segment to which the industrial asset belongs can be determined according to the IP address of the industrial asset and can be used as a basis for determining the industrial level to which the industrial asset belongs.

According to the scheme, the type of the industrial asset and/or the home network segment of the industrial asset are/is determined through the data flow direction and/or the asset mapping engine according to the related data of the industrial asset. Based on the scheme, the related attributes of the industrial assets are determined according to the related data of the industrial assets, and a basis is provided for the subsequent industrial level division of the industrial assets.

Further, referring to fig. 6, fig. 6 is a schematic flow chart of a fourth exemplary embodiment of a method for drawing an industrial level topology map, where the step of determining a first industrial level of the industrial asset in the industrial level topology map according to the correlation mapping between the related attribute of the industrial asset and the preset industrial level includes:

step S1501, determining a first industrial level corresponding to the industrial asset according to the type of the industrial asset and through a preset type-industrial level mapping relation and/or according to the home network segment of the industrial asset and through a preset network segment-industrial level mapping relation.

Specifically, related personnel divide network segments to which IP addresses of industrial assets in an industrial network belong according to industrial levels, and issue the same type of the industrial assets to the same network segment, so that when the level of the industrial assets is determined, a first industrial level corresponding to the current industrial assets can be determined through a preset network segment-industrial level mapping relation; if the network segment to which the IP address of the industrial asset belongs in the industrial network is divided in a chaotic manner, so that the first industrial level cannot be determined through the network segment to which the IP address belongs, the first industrial level corresponding to the type of the industrial asset can be retrieved according to a preset type-industrial level mapping relation, and the first industrial level corresponding to the current industrial asset is determined.

According to the scheme, the first industrial level corresponding to the industrial asset is determined according to the type of the industrial asset, the preset type-industrial level mapping relation and/or the preset network segment-industrial level mapping relation according to the attribution network segment of the industrial asset. Based on the scheme, according to the correlation mapping between the correlation attribute of the industrial asset and the preset industrial level, the first industrial level of the industrial asset in the industrial level topological graph is determined, the industrial level corresponding to the current industrial asset is defined, and the basis for asset level division is provided for drawing the industrial level topological graph.

Further, referring to fig. 7, fig. 7 is a schematic flowchart of a fifth exemplary embodiment of a method for drawing an industry level topology map, where the step of drawing the industry level topology map according to the data related to the industrial asset, the preset industry level and the first industry level includes:

step 1701, determining the names of the industrial assets according to the related data of the industrial assets and a preset name-feature data mapping table in sequence;

specifically, a first industrial hierarchy corresponding to the industrial asset is obtained through step S1501, data of the industrial asset is grouped according to the first industrial hierarchy, a group order after grouping and an order inside each group are determined, related data of the industrial asset are traversed according to the order, first feature data is extracted from the related data, and the related data is matched with feature data in a preset name-feature data mapping table, so that a name and an order of the industrial asset are determined.

Step 1702, obtaining a model map of the industrial asset according to the order according to the name of the industrial asset and a preset name-model map mapping table;

specifically, according to the sequence determined in step S1701, the names of the industrial assets are traversed and matched with the names in the preset name-model map mapping table, so as to determine the model map and the sequence of the industrial assets.

Step S1703, calculating the size of a target canvas, relevant coordinate information and information of a layering line according to the name and the model diagram of the industrial asset, the first industrial level, the preset industrial level and the sequence;

specifically, according to the height of the model map of the industrial asset, the first industrial level, the sequence and the preset longitudinal graphic interval, calculating the height of the target canvas, the coordinate information of the hierarchical line, the coordinate information of the name of the industrial level and the longitudinal coordinate information of the model map; calculating the width of the target canvas, the length of the layering line and the abscissa information of the model map according to the width of the model map of the industrial asset, the first industrial level, the sequence and a preset lateral graphic interval; calculating coordinate information of the name of the model map according to the horizontal and vertical coordinates of the model map of the industrial asset; and calculating coordinate information of an arrow pointing to the model diagram according to the horizontal and vertical coordinates of the model diagram of the industrial asset and the coordinate information of the hierarchical line.

Step S1704, drawing the industrial level topological graph according to the size of the target canvas and the relevant coordinate information, the information of the layering line, the name of the industrial asset and the model graph.

Specifically, the canvas is rendered by loading a target canvas size on a webpage, loading element and coordinate information such as the name and model diagram of the industrial asset, the hierarchical line, the industrial hierarchy name and the like, thereby drawing the industrial hierarchy topological diagram.

Fig. 8 is a display diagram of an industrial level topology according to an embodiment of the present disclosure, as shown in fig. 8, wherein the industrial level topology is drawn based on an industrial level.

In the embodiment, the industry level is proposed by combining the common points of the enterprise system and the control system, which inherit the international standard, the industry 4.0 reference architecture model and the intelligent manufacturing system architecture. The industry level includes: the field device layer, the field control layer, the process monitoring layer, the production management layer, and the enterprise resource layer, specifically, as shown in fig. 8, the field device layer may include but is not limited to: PTU (Power Trip Unit controller, distribution and relay protection equipment), sensor, motor equipment, network camera, intelligent instrument and electronic valve; the field control layer may include, but is not limited to: PLC (Programmable Logic Controller), DCS (Distributed Control System), RTU (Remote Terminal Control System), PAC (Programmable Automation Controller), edge Programmable industrial Controller; the process monitoring layer may include, but is not limited to: an engineer station, an operator station, an HMI (Human-computer interaction), a VMS (Video Management Server), an OPC (OLE for Process Control, industrial standard for Process Control embedding technology) Server, and a data Server; the production management layer may include, but is not limited to: QCS (Quality Control System), QAS (Quality assurance System), MES (manufacturing execution System), MIS (Management Information System), OPC (OLE for Process Control, industrial standard for Process Control embedding technology) client; the enterprise resource layer may include, but is not limited to: terminal device, web server, application server, mail server, other server.

The specific process for drawing the industrial level topological graph in the embodiment is as follows:

firstly, according to the related data of the industrial assets and a preset name-feature data mapping table, grouping the data of the industrial assets through the first industrial level, determining the grouped group sequence and the sequence inside each group, and acquiring the names and the sequence of the industrial assets according to the sequence; determining a model diagram and a sequence of the industrial assets according to the name and the sequence of the industrial assets and a preset name-model diagram mapping table and the sequence of the names of the industrial assets;

then, according to the width of the model diagram of the industrial asset and the preset transverse interval of the diagram, the width of the target canvas and the length of the layering line are calculated; accumulating the height of the model diagram of the industrial asset and the preset longitudinal interval of the diagram according to the height of the model diagram of the industrial asset and the preset longitudinal interval of the diagram, and calculating the height of the target canvas;

then, creating a canvas through HTML, equally dividing the canvas, determining an initial coordinate of a hierarchical line, and determining coordinate information of the name of the industrial level according to the coordinate of the hierarchical line and the size of the canvas;

determining horizontal and vertical coordinates of the model diagram of the industrial asset in a canvas according to the sequence of the model diagram of the industrial asset by a hierarchical linear coordinate and a preset horizontal interval, and determining the name center coordinate position or the starting and ending position of the industrial asset according to the horizontal and vertical coordinates of the model diagram of the industrial asset; calculating coordinate information of an arrow pointing to the model diagram according to the horizontal and vertical coordinates of the model diagram of the industrial asset and the coordinate information of the hierarchical line;

and finally, drawing the drawing object through JS (JavaScript) on the canvas created by HTML (Hypertext Markup Language) according to the size of the target canvas, the coordinates of the name of the industrial level, the model diagram of the industrial asset, the coordinate information of the name, the initial coordinates and the length of the hierarchical line, and the name and the model diagram of the industrial asset, so as to generate the industrial level topological graph.

Based on the scheme, a network asset topological graph in an industrial network environment is comprehensively drawn according to the related data of the industrial asset, the preset industrial level and the first industrial level, and related personnel can be assisted to more comprehensively and clearly understand the condition of the industrial network asset.

Further, referring to fig. 9, fig. 9 is a flowchart illustrating a sixth exemplary embodiment of a method for drawing an industrial level topology map, where the step of calculating the target canvas size and the related coordinate information and the information of the hierarchical lines according to the name and model map of the industrial asset, the first industrial level, the preset industrial level and the sequence includes:

step S17031, calculating a height of the target canvas, coordinate information of the layering line, coordinate information of a name of the industry level, and vertical coordinate information of the model diagram according to a height of the model diagram of the industrial asset, the first industry level, the order, and a preset diagram vertical interval;

specifically, according to the height of the model graph of the industrial asset, the name length and the number of layers of each industrial level and the longitudinal interval of preset graphs, the height of a target canvas and the coordinate information of a layering line are determined, and according to the model graph and the sequence of the industrial asset, the model graphs of all the industrial assets and the longitudinal coordinate information corresponding to the names of the industrial levels are determined according to the vertically staggered arrangement mode of the model graphs of the industrial assets on the same layer.

Step S17032, calculating the width of the target canvas, the length of the layering line and the abscissa information of the model diagram according to the width of the model diagram of the industrial asset, the first industrial level, the sequence and the preset transverse graphic interval;

specifically, the width of the target canvas and the length of the layering line are determined according to the width of the model diagram of the industrial asset and the preset transverse interval of the diagram, and the abscissa information of the model diagram is determined through the sequence of the model diagram of the industrial asset.

Step S17033, calculating coordinate information of the name of the model diagram according to the horizontal and vertical coordinates of the model diagram of the industrial asset;

step S17034, calculating coordinate information of an arrow pointing to the model map according to the horizontal and vertical coordinates of the model map of the industrial asset and the coordinate information of the hierarchical line.

According to the scheme, the height of the target canvas, the coordinate information of the hierarchical line, the coordinate information of the name of the industrial level and the vertical coordinate information of the model map are calculated according to the height of the model map of the industrial asset, the first industrial level, the sequence and the preset longitudinal graphic interval; calculating the width of the target canvas, the length of the layering line and the abscissa information of the model map according to the width of the model map of the industrial asset, the first industrial level, the sequence and a preset lateral graphic interval; calculating coordinate information of the name of the model map according to the horizontal and vertical coordinates of the model map of the industrial asset; and calculating coordinate information of an arrow pointing to the model diagram according to the horizontal and vertical coordinates of the model diagram of the industrial asset and the coordinate information of the hierarchical line. Based on the scheme, the size of the target canvas, the information of relevant coordinates and the information of the hierarchical lines are calculated according to the name and the model diagram of the industrial asset, the first industrial level, the preset industrial level and the sequence, and data support is provided for comprehensively, accurately and clearly drawing the industrial level topological diagram.

In addition, an embodiment of the present application further provides a device for drawing an industrial level topological graph, where the device for drawing an industrial level topological graph includes:

the hierarchy module is used for determining a first industrial hierarchy of the industrial assets in an industrial hierarchy topological graph according to the related mapping between the related attributes of the industrial assets and a preset industrial hierarchy;

In addition, the embodiment of the present application further provides a terminal device, where the terminal device includes a memory, a processor, and a drawing program of an industry-level topology map that is stored in the memory and is executable on the processor, and when the drawing program of the industry-level topology map is executed by the processor, the drawing program of the industry-level topology map implements the steps of the drawing method of the industry-level topology map.

Since the drawing program of the industrial-level topological graph is executed by the processor, all technical solutions of all the foregoing embodiments are adopted, and therefore, at least all beneficial effects brought by all the technical solutions of all the foregoing embodiments are achieved, and details are not repeated herein.

In addition, the embodiment of the present application also provides a storage medium, where a drawing program of an industrial-level topology map is stored, and when executed by a processor, the drawing program of the industrial-level topology map implements the steps of the method described above.

Since the drawing program of the industrial level topology map is executed by the processor, all technical solutions of all the embodiments are adopted, so that at least all the advantages brought by all the technical solutions of all the embodiments are achieved, and detailed description is omitted here.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present application may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, a controlled terminal, or a network device) to execute the method of each embodiment of the present application.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are included in the scope of the present application.

Claims

1. A method for drawing an industrial level topological graph is characterized by comprising the following steps:

obtaining data related to the industrial assets from the industrial network;

2. The method for drawing an industrial level topology map according to claim 1, wherein the step of obtaining data related to industrial assets from an industrial network comprises:

and acquiring relevant data of the industrial assets from the industrial network through an asset discovery engine and/or a flow analysis engine.

3. The method for drawing an industry-level topology map of claim 1, wherein said step of determining a correlation attribute of an industrial asset based on said industrial asset correlation data comprises:

4. The method for drawing the industrial level topological graph according to claim 1, wherein the step of determining the first industrial level of the industrial asset in the industrial level topological graph according to the related mapping of the related attribute of the industrial asset and the preset industrial level comprises the following steps:

and determining a first industrial level corresponding to the industrial asset according to the type of the industrial asset and a preset type-industrial level mapping relation and/or according to the attribution network segment of the industrial asset and a preset network segment-industrial level mapping relation.

5. The method for drawing an industry level topology map according to claim 1, wherein the step of drawing the industry level topology map according to the related data of the industrial asset, the preset industry level and the first industry level comprises:

and drawing the industrial level topological graph according to the size and the relevant coordinate information of the target canvas, the information of the hierarchical line, and the name and the model graph of the industrial asset.

6. The method for drawing an industry level topology map according to claim 5, wherein the step of calculating a target canvas size and associated coordinate information, information of hierarchical lines according to the name and model map of the industrial asset, the first industry level, the preset industry level, the order comprises:

7. An apparatus for drawing an industrial level topology map, the apparatus comprising:

8. An end device comprising a memory, a processor and a drawing program of an industrial level topology map stored on the memory and executable on the processor, the drawing program of the industrial level topology map realizing the steps of the drawing method of the industrial level topology map according to any one of claims 1 to 6 when executed by the processor.

9. A storage medium, characterized in that the storage medium stores thereon a drawing program of an industrial level topology drawing, which when executed by a processor implements the steps of the drawing method of the industrial level topology drawing according to any one of claims 1 to 6.