CN117896237A - Multi-device intercommunication scene supervision system aiming at network networking - Google Patents

Abstract

The invention provides a multi-equipment intercommunication scene supervision system aiming at network networking, which comprises the following steps: the method comprises the steps of obtaining networking equipment basic information, formulating a networking scheme, establishing a networking topological structure, setting a monitoring node establishing module, combining the networking equipment, testing the real-time networking through the monitoring node according to the setting scheme, judging the network state according to preset conditions and extracting the fault point. According to the invention, the communication links among the multiple devices are monitored at the nodes, the abnormal state of the links is monitored according to the preset condition establishment standard, the abnormal state of the links can be timely responded, and the stability and the accuracy are ensured.

Description

Multi-device intercommunication scene supervision system aiming at network networking

Technical Field

The invention relates to the technical field of multi-device interconnection, in particular to a multi-device intercommunication scene supervision system aiming at network networking.

Background

Along with the development of society, the Internet of things and life are combined more and more closely, in order to improve the convenience of work, the equipment needs to be connected with each other to form a network networking for intercommunication, so that information transmission and sharing can be realized, and the convenience of contemporary work and life is improved.

At present, when network networking is formed among devices, because of the difference of functions of connection among the devices, in order to realize one function, partial devices in the network networking need to operate, or all the devices in the network networking need to operate to obtain the operation of the devices in multiple scenes, before the network networking is put into practical use, the stability of the network networking needs to be monitored, abnormal timely reaction of the network devices in multiple scenes is difficult, and when the network devices are abnormal, accurate position positioning of abnormal data is difficult, and in the test process of the networking in multiple scenes, the test accuracy is difficult to be ensured.

Disclosure of Invention

In view of this, the embodiment of the invention provides a multi-device interworking scene supervision system for network networking, so as to eliminate or improve one or more defects existing in the prior art, and solve the problem that abnormal data monitoring and positioning cannot be accurately performed in the multi-device interworking scene in the prior art.

In one aspect, the present invention provides a multi-device interworking scene supervision system for network networking, including:

the formulating module is used for obtaining the basic information of a plurality of networking devices and formulating a networking scheme according to the set requirements;

The establishing module is used for establishing a networking topological structure of each networking device according to the networking scheme and setting monitoring nodes of the networking topological structure;

the combination module is connected with the establishment module, and is used for carrying out connection combination on each networking device according to the networking topological structure and the set monitoring nodes based on the Ethernet to obtain a plurality of real-time network networking;

the test module is used for testing the real-time network networking through the monitoring node according to a set scheme, collecting test data and establishing mapping between the test data and the networking topological structure;

the judging module is connected with the testing module, acquires the testing data and judges whether the network state is abnormal according to preset conditions;

and the extraction module is connected with the judgment module and used for obtaining fault points by extracting abnormal data in the test data.

In some embodiments, the formulation module includes:

the acquisition unit is used for taking the name and the type of the networking equipment and a protocol capable of supporting network connection as basic information;

the corresponding unit is used for establishing a one-to-one networking scheme for a plurality of preset intercommunication scenes according to the basic information;

And the determining unit is used for determining the connection information among the networking devices according to the networking scheme, wherein the connection information comprises a connection mode and a connection protocol.

In some embodiments, the establishing module comprises:

the establishing unit is used for establishing a networking topological structure of each networking device according to the networking scheme and dividing the networking topological structure into a plurality of types of areas according to the types of the networking devices;

the first formulating unit is used for respectively configuring monitoring intensity information for each type of region, wherein the monitoring intensity information comprises a monitoring intensity range and corresponding monitoring conditions; the monitoring condition is a strategy for configuring the monitoring node;

the setting unit is used for setting monitoring nodes for communication links among the networking devices according to the monitoring intensity range and the monitoring conditions;

and the association unit is used for associating the networking scheme with the networking topological structure and marking basic information of the networking equipment in the networking topological structure.

In some embodiments, the first formulation unit includes:

the computing unit is used for adding importance weights to networking equipment in each type of area and computing monitoring intensity indexes of each type of area according to the importance weights and the quantity of the networking equipment;

And the rule making unit is used for matching the monitoring conditions according to the monitoring intensity indexes corresponding to the various types of areas.

In some embodiments, the combining module comprises:

the combination unit is used for carrying out connection combination on each networking device according to the networking topological structure, and configuring a connection protocol to obtain a plurality of real-time network networking;

and the mapping unit is used for adding the monitoring node into the real-time network networking and establishing a mapping channel between the real-time network networking and the networking topological structure.

In some embodiments, the test module comprises:

the test unit is used for respectively carrying out operation test on one or more real-time network networking according to the set scheme and obtaining test data;

the building unit is used for appointing the communication rule among all the monitoring nodes;

and the transmission unit is used for mapping the test data into the networking topological structure and marking the identification of the corresponding monitoring node.

In some embodiments, the determining module includes:

the second formulating unit is used for designating the preset conditions, wherein the preset conditions comprise a communication link state parameter standard and a test data state standard;

And the judging unit is used for checking the abnormal state of the test data according to the communication link state parameter standard and the test data state standard, and marking the monitoring node generating the abnormal data in the networking topological structure.

In some embodiments, the extraction module comprises:

the extraction unit is used for extracting an abnormal communication link with abnormal data in each real-time network networking based on the checking result of the judgment unit on the abnormal state;

the coincidence comparison unit is used for carrying out coincidence comparison on the abnormal communication links in each real-time network networking, and taking the abnormal communication links with the repetition degree exceeding the preset number as fault links;

and the management unit takes the networking equipment related to the fault link as a fault point.

In some embodiments, the monitored intensity index is calculated as:

；

wherein,representing the monitoring intensity index->And (5) representing importance weights of the nth networking equipment, wherein n is the number of the networking equipment.

In some embodiments, the determination module processes the test data using a pre-trained graph convolution neural network to determine if the network state is abnormal.

The invention has the advantages that:

According to the multi-equipment intercommunication scene supervision system aiming at the network networking, the communication links among the multiple equipment are monitored at the nodes, the abnormal state of the links is monitored according to the preset condition establishment standard, the abnormal state of the links can be responded in time, and the stability and the accuracy are ensured.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objectives and other advantages of the invention may be realized and attained by the structure particularly pointed out in the written description and drawings.

It will be appreciated by those skilled in the art that the objects and advantages that can be achieved with the present invention are not limited to the above-described specific ones, and that the above and other objects that can be achieved with the present invention will be more clearly understood from the following detailed description.

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 application, illustrate and together with the description serve to explain the invention. In the drawings:

fig. 1 is a schematic structural diagram of a multi-device interworking scene supervision system for network networking according to an embodiment of the invention.

Fig. 2 is a schematic structural diagram of a multi-device interworking scene supervision system for network networking according to another embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments and the accompanying drawings, in order to make the objects, technical solutions and advantages of the present invention more apparent. The exemplary embodiments of the present invention and the descriptions thereof are used herein to explain the present invention, but are not intended to limit the invention.

It should be noted here that, in order to avoid obscuring the present invention due to unnecessary details, only structures and/or processing steps closely related to the solution according to the present invention are shown in the drawings, while other details not greatly related to the present invention are omitted.

It should be emphasized that the term "comprises/comprising" when used herein is taken to specify the presence of stated features, elements, steps or components, but does not preclude the presence or addition of one or more other features, elements, steps or components.

It is also noted herein that the term "coupled" may refer to not only a direct connection, but also an indirect connection in which an intermediate is present, unless otherwise specified.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the drawings, the same reference numerals represent the same or similar components, or the same or similar steps.

The network environment in which multiple devices are interconnected involves multiple devices and multiple protocols, which increases the complexity and heterogeneity of the network environment. Anomaly detection requires identifying and distinguishing behavioral characteristics of various devices and protocols to ensure accurate detection of anomalous behavior. In a multi-device interconnected network, traffic characteristics may change due to changes in a number of factors, such as devices, network topology, application load, etc. This makes it necessary for the anomaly detection algorithm to have adaptive and dynamic tuning capabilities to cope with changes in flow characteristics.

The invention provides a multi-equipment intercommunication scene supervision system aiming at network networking, which comprises the steps of formulating a networking scheme according to the basic information of networking equipment and establishing a networking topological structure according to the requirement, setting monitoring nodes on the basis, introducing test acquisition test data, performing anomaly judgment, and extracting the position where the anomaly data is generated to obtain a fault point.

Specifically, the multi-device interworking scene supervision system for network networking, as shown in fig. 1 and fig. 2, includes: the device comprises a formulating module, a building module, a combining module, a testing module, a judging module and an extracting module. In the invention, electronic equipment such as a central processing unit, a singlechip, a field programmable gate array and the like capable of loading and running computer programs can be used as a formulation module, a building module, a combination module, a test module, a judgment module and an extraction module.

The formulating module is used for obtaining the basic information of a plurality of networking devices and formulating a networking scheme according to the set requirements. Networking devices refer to devices used in computer networks to connect various devices, implement data transmission and communication. Networking devices may include, but are not limited to, network cards, switches, routers, hubs, repeaters, etc., and the basic information of these devices may include the device model, the communication protocol employed, and performance parameters such as communication bandwidth, power, etc. When a networking scheme is specified, the configuration is carried out according to the requirements of a specific application scene, the reliability, the safety, the expandability and the management convenience of the network can be generally configured as setting requirements, and the corresponding networking scheme can comprise star networking, tree networking, ring networking, mesh networking and the like.

The star networking comprises a central exchanger and a plurality of terminal devices. The central exchange is responsible for connecting and managing all the terminal devices, each connected directly to the central exchange. The networking mode has simple structure and is easy to expand and manage.

Tree networking is a hierarchical structure consisting of multiple levels of switches and routers. The switches and routers at all levels are connected and managed according to a hierarchical structure to form a huge network. The networking mode can support large-scale network deployment, but management is complex.

The ring networking is a networking mode with a ring structure, and each node is connected into a ring structure. The data is transmitted in a ring structure according to a certain direction, and each node only receives and transmits the data. The networking mode has higher reliability and stability.

Mesh networking is a free form networking approach that has no fixed structure or rules. Each node is directly or indirectly connected together to form a complex network topology. The networking mode has high flexibility and expansibility, but is more complex to manage.

Besides the above common networking schemes, other networking schemes, such as hybrid networking, wireless networking, etc., can be selected according to actual requirements.

The establishing module is used for establishing the networking topological structure of each networking device according to the networking scheme and setting monitoring nodes of the networking topological structure. The networking network topology refers to a specific manner in which each node in the network is connected to each other, that is, the layout of the network. The topology determines how data is transferred and the manner of connection between nodes. Common network topologies include star, bus, ring, tree, mesh, and the like. Different topological structures have different characteristics and application scenes, and the selection of the proper topological structure needs to consider factors such as network scale, node number, data flow, reliability requirement, cost and the like. When networking, a proper topological structure is required to be selected according to actual requirements and scenes, and corresponding design and configuration are carried out to ensure the performance and stability of the network. The monitoring nodes can be used for ensuring that the performance and the state of the network can be comprehensively monitored by deploying sensors or selecting key nodes or high-flow nodes in the network as the monitoring nodes. Appropriate hardware and software are configured for the monitoring node to meet the monitoring requirements. The hardware comprises a server, a storage device and the like, and the software comprises a network monitoring tool, an analysis tool and the like.

And the combination module is used for connecting and combining all networking equipment according to the networking topological structure and the set monitoring nodes based on the Ethernet to obtain a plurality of real-time network networking. The combination module executes networking actions through network devices such as an instruction router, a switch and the like. The devices are connected with different network nodes and are responsible for data transmission and forwarding. By configuring parameters of the devices, connection and communication between different networks can be realized, and various networking requirements can be met. The router is mainly responsible for routing forwarding based on IP addresses, and the switch forwards data according to the MAC address table. According to different networking scenes and requirements, proper networking equipment can be selected and correspondingly configured so as to realize efficient computer network connection and communication.

And the test module is used for testing the real-time network networking through the monitoring nodes according to the set scheme, collecting test data and establishing mapping between the test data and the networking topological structure.

Specifically, the content of the test may include testing network connectivity: network connectivity is tested using ping commands or other network tools. A ping request is sent from one device to the other device to check if a reply can be received. And testing connectivity among the devices to ensure normal network communication. Test network bandwidth: the bandwidth performance of the network is tested using a network bandwidth testing tool, such as iperf, speedtest. These tools can test metrics such as maximum throughput, upload and download speeds of the network to ensure that network bandwidth meets demand. Testing network delay: network delay performance is tested using a network delay test tool, such as Traceroute or tracert. These tools may test the routing nodes through which data passes from the source device to the destination device and calculate the delay time for each node to determine if the network delay is within an acceptable range. Testing reliability and stability of the network: and (3) performing long-time network pressure test, and simulating high-load network traffic to test the reliability and stability of the network. This may help discover potential network problems such as packet loss, delay, etc. Testing network security: network security testing is performed, including firewall configuration, intrusion detection systems, etc. The security configuration of the network device is checked, and security hole scanning and attack simulation are performed to find out potential security risks.

The judging module is connected with the testing module, acquires the testing data and judges whether the network state is abnormal according to preset conditions. Whether the network state is abnormal or not is judged according to preset conditions, a threshold judgment method can be adopted, and whether abnormal data exist or not is judged by setting a normal numerical range of network operation parameters and detecting whether an out-of-range condition exists or not. In addition, a neural network based on computer learning can be used to identify abnormal states of network parameters by training the neural network to learn characteristics of network parameters in normal states and then comparing new network parameters with the learned normal characteristics to detect abnormalities. The following is a general procedure for identifying network parameter anomalies using a neural network:

1) And (3) data collection: a large amount of sample network parameter data is collected, which may include normal, non-abnormal network traffic data and data with anomalies present, and a tag is added.

2) Data preprocessing: preprocessing the collected sample network parameter data, including data cleaning, feature extraction and the like. The purpose of this step is to convert the raw data into a form suitable for neural network processing.

3) Training a neural network: the neural network is trained using the processed normal data so that it can learn the characteristics of the normal network parameters. This process typically requires the use of supervised learning algorithms. Specifically, the graph convolution neural network can be used for training the sample network parameter data based on the graph data form acquisition record.

4) Detecting abnormality: the trained neural network is used to detect anomalies. Specifically, new network parameters are input into the trained neural network, and whether abnormality exists is judged through feature extraction and recognition.

5) Outputting a result: and outputting a corresponding abnormal detection result according to the judgment result of the neural network. For example, an abnormal situation may be marked as "abnormal" and a normal situation may be marked as "normal".

The extraction module is connected with the judgment module and used for obtaining fault points by extracting abnormal data in the test data. And searching abnormal points by taking real-time network networking, nodes or links as objects.

In some embodiments, the formulation module includes: the device comprises an acquisition unit, a corresponding unit and a determining unit. In the invention, electronic devices such as a central processing unit, a singlechip, a field programmable gate array and the like capable of loading and running computer programs can be adopted as the acquisition unit, the corresponding unit and the determination unit

The acquisition unit is used for taking the name and the type of the networking equipment and a protocol capable of supporting network connection as basic information.

The corresponding unit is used for establishing a one-to-one networking scheme for a plurality of preset intercommunication scenes according to the basic information.

The determining unit is used for determining connection information among the networking devices according to the networking scheme, wherein the connection information comprises a connection mode and a connection protocol.

In some embodiments, the establishing module comprises: the device comprises a building unit, a first formulating unit, a setting unit and an association unit. In the present invention, electronic devices such as a central processing unit, a single chip microcomputer, a field programmable gate array, and the like capable of loading and running a computer program may be employed as the establishing unit, the first formulating unit, the setting unit, and the associating unit.

The establishing unit is used for establishing a networking topological structure of each networking device according to the networking scheme and dividing the networking topological structure into a plurality of types of areas according to the types of the networking devices. In this embodiment, the type areas may be divided according to the networking device type, the network function type and the topology structure, and each type area has a specific attribute or a specific function difference, so in the subsequent process, corresponding monitoring intensities and corresponding policies are configured for different types of areas.

The first formulating unit is used for respectively configuring monitoring intensity information for each type of region, wherein the monitoring intensity information comprises a monitoring intensity range and corresponding monitoring conditions; the monitoring condition is a policy to configure the monitoring node. Specifically, for the type area with higher monitoring intensity, higher monitoring frequency can be configured, and specific monitoring node deployment density and fault detection threshold range are set.

The setting unit is used for setting monitoring nodes for communication links among the networking devices according to the monitoring intensity range and the monitoring conditions.

The association unit is used for associating the networking scheme with the networking topological structure and marking basic information of networking equipment in the networking topological structure.

In some embodiments, the first formulation unit includes: a calculation unit and a rule making unit. In the present invention, electronic devices such as a central processing unit, a single chip microcomputer, a field programmable gate array, etc., capable of loading and running a computer program may be employed as the calculation unit and the rule making unit.

The computing unit is used for adding importance weights to networking equipment in each type of area and computing the monitoring intensity indexes of each type of area according to the importance weights and the number of the networking equipment. In some embodiments, the monitored intensity index is calculated as:

；

Wherein,indicating the monitoring intensity index>And the importance weight of the nth networking equipment is represented, and n is the number of the networking equipment.

And the rule making unit is used for matching the monitoring conditions according to the corresponding monitoring intensity indexes of the various types of areas.

In some embodiments, the combining module comprises: a combining unit and a mapping unit. In the present invention, electronic devices such as a central processing unit, a single chip microcomputer, a field programmable gate array, etc., capable of loading and running a computer program may be employed as the combination unit and the mapping unit.

The combination unit is used for carrying out connection combination on each networking device according to the networking topological structure, and configuring a connection protocol to obtain a plurality of real-time network networking.

The mapping unit is used for adding the monitoring node into the real-time network networking and establishing a mapping channel between the real-time network networking and the networking topological structure. The mapping is established mainly for defining the corresponding relation between the networking equipment connecting link and the networking topological structure, and the mapping can be stored and called in a log file form, so that the fault is convenient to find subsequently.

In some embodiments, the test module comprises: test unit, build unit and transmission unit. In the present invention, electronic devices such as a central processing unit, a single chip microcomputer, a field programmable gate array, etc., capable of loading and running a computer program may be employed as the test unit, the build unit, and the transmission unit.

The test unit is used for respectively performing operation test on one or more real-time network networks according to a set scheme and obtaining test data.

The building unit is used for appointing the communication rule among all the monitoring nodes.

The transmission unit is used for mapping the test data to the networking topological structure and marking the identification of the corresponding monitoring node.

In some embodiments, the determining module includes: and a second formulating unit and a judging unit. In the present invention, electronic devices such as a central processing unit, a single chip microcomputer, a field programmable gate array, etc., capable of loading and running a computer program may be employed as the second formulation unit and the judgment unit.

The second formulating unit is used for designating preset conditions, wherein the preset conditions comprise communication link state parameter standards and test data state standards. Here in the form of threshold detection to identify faults in the network. If neural networks are used for anomaly identification, the second specification unit can also load corresponding pre-trained neural network models according to different types of regions.

The judging unit is used for checking the abnormal state of the test data according to the communication link state parameter standard and the test data state standard, and marking the monitoring node generating the abnormal data in the networking topological structure. The process of performing the judgment is a data checking process, if a threshold detection mode is adopted, the calculation amount is less, the judgment can be performed based on the calculation force of the judgment unit, and if the neural network model is used for abnormality detection, the judgment can also be performed by using a pre-deployed calculation network.

In some embodiments, the extraction module comprises: the device comprises an extraction unit, a coincidence comparison unit and a management unit. In the invention, electronic devices such as a central processing unit, a singlechip, a field programmable gate array and the like capable of loading and running computer programs can be adopted as the extraction unit, the coincidence comparison unit and the management unit.

And the extraction unit is used for extracting the abnormal communication links with abnormal data in each real-time network networking based on the checking result of the judging unit on the abnormal state.

And the coincidence comparison unit is used for carrying out coincidence comparison on the abnormal communication links in the real-time network networking, and taking the abnormal communication links with the repetition degree exceeding the preset number as fault links.

And the management unit takes networking equipment related to the fault link as a fault point.

The invention is described below in connection with a specific embodiment:

with the development of society, the Internet of things and life are combined more closely, and in order to improve the convenience of work, equipment needs to be connected to form a network for intercommunication, so that information transmission and sharing can be realized, and the convenience of contemporary work and life is improved;

at present, when network networking is formed among devices, due to the fact that function differences exist in connection among the devices, in order to achieve the purpose that one function needs to operate part of the devices in the network networking to work, or all the devices in the network networking work, device operation under multiple scenes is obtained, before the network networking is put into practical use, stability of the network networking needs to be monitored, abnormal timely reaction of the network devices under multiple scenes is difficult, when the network devices are abnormal, accurate position positioning of abnormal data is difficult, in the networking test process under multiple scenes, testing accuracy is difficult to guarantee, and in the networking test process under multiple scenes, the embodiment can conduct node monitoring on a faulty communication link, timely reaction to the abnormal monitoring of the devices in the network networking is also improved, testing of the network networking under multiple scenes is greatly improved, testing is more accurate, and stability of the network networking under normal use is guaranteed.

As shown in fig. 1 and fig. 2, the present embodiment provides a multi-device interworking scene supervision system based on network networking, including:

the system comprises a formulating module, a processing module and a processing module, wherein the formulating module is used for obtaining basic information of a plurality of devices and formulating a plurality of networking schemes based on the basic information, wherein the networking schemes comprise networking devices and connection information between the networking devices.

The establishing module and the formulating module are used for respectively establishing corresponding networking topological structures based on a plurality of networking schemes, setting monitoring nodes of the networking topological structures and correlating the networking topological structures with the networking schemes.

The combining module is connected with the establishing module and is used for combining the actual networking equipment based on the Ethernet and networking scheme to obtain a plurality of real-time network networking and establishing a mapping channel between the real-time network networking and the corresponding networking topological structure.

The test module is used for testing the real-time network networking to obtain test information, wherein the test information comprises a test process and test data in the test process, and the test information is mapped to the networking topological structure.

The judging module is connected with the testing module and is used for acquiring the testing data in the networking topological structure based on the monitoring node and judging whether the state information of the testing data in the networking topological structure is abnormal based on the preset condition.

The extraction module is connected with the judgment module and used for extracting abnormal test data and obtaining fault points.

In one embodiment, the formulation module includes:

the acquisition unit is used for respectively acquiring name information and types of a plurality of devices and protocol information capable of supporting network connection as basic information.

And the corresponding unit is used for formulating a plurality of networking schemes corresponding to the basic information of the equipment, and the networking schemes and the intercommunication scene are in one-to-one correspondence.

And the determining unit is used for determining the connection information between the networking equipment and the networking equipment based on the networking scheme, wherein the connection information between the networking equipment comprises a connection mode and a connection protocol.

Specifically, the name information and the protocol information which can support the accepted network connection during networking are collected by a plurality of devices and are used as basic information of the devices, then a plurality of networking schemes are formulated, one networking scheme corresponds to one intercommunication scene, the intercommunication scene is a scene of data intercommunication between the devices, and then the networking devices are combined and connected according to the networking schemes, wherein the connection information between the networking devices comprises a connection mode and a connection protocol, one-to-one correspondence between the networking schemes and the intercommunication scene is further completed, the connection information between the networking devices and the networking devices is determined by the corresponding networking schemes, wherein the connection information between the networking devices comprises the connection mode and the connection protocol, data required by connection between the devices corresponding to the networking schemes can be set in advance, the subsequent rapid construction of real-time network networking can be assisted, and the rapid combination efficiency is realized.

In one embodiment, the establishing module includes:

the establishing unit is used for respectively establishing corresponding networking topological structures according to the networking schemes, and dividing the networking topological structures based on the types of networking equipment to obtain a plurality of types of areas.

And the formulating unit is used for formulating corresponding monitoring intensity information in the corresponding type area, wherein the monitoring intensity information comprises monitoring conditions of the monitoring intensity range and the corresponding monitoring intensity range.

And the setting unit is used for acquiring the communication links between the networking devices in the type area, and setting the monitoring nodes for the communication links based on the monitoring intensity information.

And the association unit is used for associating the networking topological structure with the networking scheme, and identifying basic information of networking equipment in the networking topological structure.

In one embodiment, the formulating unit comprises:

the computing unit is used for acquiring networking equipment in the type area, correspondingly determining important weights of the networking equipment, and obtaining monitoring intensity indexes of the type area based on the important weights and the number of the networking equipment, wherein the computing formula of the monitoring intensity indexes is as follows:

wherein->Representing the monitoring intensity index->Represents the importance weight of the nth networking device, n is the number of networking devices, it is to be noted that->The larger the value representing the networking device importance in the type area.

And the rule making unit is used for setting a monitoring intensity range based on the monitoring intensity index, and setting corresponding monitoring conditions corresponding to the monitoring intensity range, wherein the monitoring conditions are rules for setting monitoring nodes for communication links in the type area.

Further, corresponding networking topological structures are respectively established according to networking schemes, the networking topological structures are divided based on the types of networking equipment to obtain a plurality of types of areas, for example, the types of the networking equipment are computer equipment used by a user side, the networking equipment in the corresponding types of areas are integrally managed, then important weights are determined according to the networking equipment in the corresponding types of areas, the monitoring intensity indexes of the types of areas are obtained based on the important weights and the number of the networking equipment, the purpose that a monitoring intensity range is required to be set according to the monitoring intensity indexes is achieved, corresponding monitoring conditions are set according to the corresponding monitoring intensity ranges, wherein the monitoring conditions are rules of setting the monitoring nodes in the types of areas for communication links, the rules are rules of setting the monitoring nodes in preset lengths for the communication links, the monitoring nodes are set in one communication link, the rules are the preset lengths for the communication links, the monitoring nodes are set, the monitoring intensity ranges are set through the networking equipment in the network, the network is enabled to be monitored according to the monitoring intensity indexes, the corresponding monitoring conditions are set, the monitoring conditions are set in the network-forming network, the abnormal network use of the monitoring network can be prevented, and the network can be normally used by setting the monitoring network.

In one embodiment, the combining module includes:

and the combining unit is used for combining the actual networking equipment based on the networking scheme, and obtaining a plurality of real-time network networking by a plurality of networking equipment based on the Ethernet through a connection protocol.

And the mapping unit is used for correspondingly adding the monitoring nodes in the networking topological structure into the real-time network networking, and establishing a mapping channel between the real-time network networking and the networking topological structure based on the monitoring nodes.

Further, networking equipment is connected in a combined mode according to connection of a networking topological structure through a networking scheme, the combined connection is that the real-time networking is obtained through connection of an Ethernet and a connection protocol, then a mapping channel between the real-time networking and the networking topological structure is established based on the monitoring nodes and is a communication channel between the real-time networking and the monitoring nodes corresponding to the networking topological structure, operation data in the real-time networking are updated to the networking topological structure in real time through the monitoring nodes, the state of the networking is monitored in real time through the real-time reaction of the data in the communication link to the networking topological structure through the monitoring nodes, high-efficiency fault reaction efficiency is achieved, stability monitoring on the networking is greatly improved, and good network security verification effect can be achieved according to monitoring of a plurality of schemes.

In one embodiment, the test module includes:

and the test unit is used for simultaneously carrying out operation test on a plurality of real-time network networking, obtaining a test process and test data in the test process and taking the test data as test information.

The building unit is used for making a communication rule between the monitoring nodes of the real-time network networking and the monitoring nodes in the networking topological structure, wherein the communication rule comprises opening characteristics and opening protocols of the communication link.

And the transmission unit is used for mapping the test data in the test process to the corresponding networking topological structure through the monitoring nodes based on the communication rule, and identifying the test data at the positions of the monitoring nodes.

Further, the plurality of real-time network networking is used for testing simultaneously, the testing process and the testing data in the testing process are used as testing information, then the corresponding testing data are mapped into the corresponding networking topological structure through the monitoring nodes, the testing data are marked at the positions of the monitoring nodes, the plurality of real-time network networking is used for testing simultaneously to obtain the data relation of the plurality of network networking tests, the follow-up fault positioning according to the real-time network networking can be facilitated, the method has better reference significance, the accuracy of networking testing can be ensured, the stability of networking operation is ensured, the communication rule comprises the opening characteristics of the communication links and the opening protocol, the opening characteristics are the signals of the monitoring data collected by the monitoring nodes in the real-time network networking, and the opening protocol is the communication connection protocol between the monitoring nodes in the real-time network networking and the monitoring nodes in the networking topological structure.

In one embodiment, the judging module includes:

the formulating unit is used for formulating preset conditions corresponding to the real-time network networking, wherein the preset conditions comprise a communication link and operation data corresponding to the communication link.

The judging unit is used for obtaining the test data in the networking topological structure based on the monitoring nodes, judging whether the state information of the test data in the networking topological structure is abnormal based on the preset conditions, and taking the test data corresponding to the monitoring nodes which do not meet the preset conditions as abnormal data and marking the abnormal data in the networking topological structure.

Further, the preset condition is communication link and operation data corresponding to the communication link, then the test data in the networking topological structure can be obtained by the monitoring node to be correspondingly judged, the test data corresponding to the monitoring node which does not meet the preset condition is used as abnormal data and marked in the networking topological structure, the communication link with the abnormal data is marked, the real-time networking can be monitored more accurately, the precision is improved, the position corresponding to the abnormal data can be greatly improved, the fault point position is better judged, the communication links among networking devices can be accurately judged, the network networking can be better tested, the stability of the network networking in the actual use process can be ensured, and the network networking monitoring system has a better test monitoring function.

In one embodiment, the extraction module comprises:

the extraction unit is used for extracting the abnormal test data to obtain fault suspicious information, wherein the fault suspicious information comprises a plurality of communication links corresponding to the abnormal data in the real-time network networking.

And the coincidence comparison unit is used for coincidence of communication links corresponding to abnormal data in the plurality of real-time network networking to obtain the communication link with the highest repetition degree, and the communication link corresponding to the repetition degree exceeding the preset number is used as a fault link.

And the management unit is used for taking the networking equipment corresponding to the fault link as a fault point.

Further, the fault suspicious information is obtained by extracting abnormal test data, wherein the fault suspicious information comprises communication links corresponding to abnormal data in a plurality of real-time network groups, wherein the data is monitored through monitoring nodes, the real-time network groups corresponding to a plurality of networking schemes are arranged, namely, the monitoring of network groups under a plurality of scenes is carried out, the communication links corresponding to the abnormal data in the plurality of real-time network groups are overlapped, the communication links with the highest repeatability are obtained, for example, the plurality of real-time network groups have the same communication links between two devices, and the problem that the same communication links have the repeatability is that the communication links have the problem, the performance can represent that the communication links have the problem, the acquisition accuracy of a fault point can be improved, the node monitoring can be carried out on the communication links with the fault, the abnormal monitoring accuracy of the devices in the network groups can be timely reflected, the test of the network groups under the plurality of scenes is greatly improved, the test of the network groups under the scene is more accurate, and the normal network group stability is ensured.

In summary, according to the multi-device intercommunication scene supervision system for network networking, the communication links among the multiple devices are monitored in a node-by-node manner, and the abnormal state of the links is monitored according to the establishment standard of the preset condition, so that the abnormal state of the links can be responded in time, and the stability and the accuracy are ensured.

Those of ordinary skill in the art will appreciate that the various illustrative components, systems, and methods described in connection with the embodiments disclosed herein can be implemented as hardware, software, or a combination of both. The particular implementation is hardware or software dependent on the specific application of the solution and the design constraints. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention. When implemented in hardware, it may be, for example, an electronic circuit, an Application Specific Integrated Circuit (ASIC), suitable firmware, a plug-in, a function card, or the like. When implemented in software, the elements of the invention are the programs or code segments used to perform the required tasks. The program or code segments may be stored in a machine readable medium or transmitted over transmission media or communication links by a data signal carried in a carrier wave.

It should be understood that the invention is not limited to the particular arrangements and instrumentality described above and shown in the drawings. For the sake of brevity, a detailed description of known methods is omitted here. In the above embodiments, several specific steps are described and shown as examples. However, the method processes of the present invention are not limited to the specific steps described and shown, and those skilled in the art can make various changes, modifications and additions, or change the order between steps, after appreciating the spirit of the present invention.

In this disclosure, features that are described and/or illustrated with respect to one embodiment may be used in the same way or in a similar way in one or more other embodiments and/or in combination with or instead of the features of the other embodiments.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, and various modifications and variations can be made to the embodiments of the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A multi-device interworking scene supervision system for network networking, comprising:

the formulating module is used for obtaining the basic information of a plurality of networking devices and formulating a networking scheme according to the set requirements;

the establishing module is used for establishing a networking topological structure of each networking device according to the networking scheme and setting monitoring nodes of the networking topological structure;

the combination module is connected with the establishment module, and is used for carrying out connection combination on each networking device according to the networking topological structure and the set monitoring nodes based on the Ethernet to obtain a plurality of real-time network networking;

the test module is used for testing the real-time network networking through the monitoring node according to a set scheme, collecting test data and establishing mapping between the test data and the networking topological structure;

the judging module is connected with the testing module, acquires the testing data and judges whether the network state is abnormal according to preset conditions;

the extraction module is connected with the judgment module and used for obtaining fault points by extracting abnormal data in the test data;

wherein, the establishment module includes:

the establishing unit is used for establishing a networking topological structure of each networking device according to the networking scheme and dividing the networking topological structure into a plurality of types of areas according to the types of the networking devices;

The first formulating unit is used for respectively configuring monitoring intensity information for each type of region, wherein the monitoring intensity information comprises a monitoring intensity range and corresponding monitoring conditions; the monitoring condition is a strategy for configuring the monitoring node; the first formulation unit includes: the computing unit is used for adding importance weights to networking equipment in each type of area and computing monitoring intensity indexes of each type of area according to the importance weights and the quantity of the networking equipment; the rule making unit is used for matching the monitoring conditions according to the monitoring intensity indexes corresponding to the various types of areas;

the setting unit is used for setting monitoring nodes for communication links among the networking devices according to the monitoring intensity range and the monitoring conditions;

and the association unit is used for associating the networking scheme with the networking topological structure and marking basic information of the networking equipment in the networking topological structure.

2. The multi-device interworking scene supervision system for network networking according to claim 1, wherein the formulation module comprises:

the acquisition unit is used for taking the name and the type of the networking equipment and a protocol capable of supporting network connection as basic information;

The corresponding unit is used for establishing a one-to-one networking scheme for a plurality of preset intercommunication scenes according to the basic information;

and the determining unit is used for determining the connection information among the networking devices according to the networking scheme, wherein the connection information comprises a connection mode and a connection protocol.

3. The multi-device interworking scene supervision system for network networking according to claim 1, wherein the combining module comprises:

the combination unit is used for carrying out connection combination on each networking device according to the networking topological structure, and configuring a connection protocol to obtain a plurality of real-time network networking;

and the mapping unit is used for adding the monitoring node into the real-time network networking and establishing a mapping channel between the real-time network networking and the networking topological structure.

4. The multi-device interworking scene supervision system for network networking according to claim 1, wherein the test module comprises:

the test unit is used for respectively carrying out operation test on one or more real-time network networking according to the set scheme and obtaining test data;

the building unit is used for appointing the communication rule among all the monitoring nodes;

And the transmission unit is used for mapping the test data into the networking topological structure and marking the identification of the corresponding monitoring node.

5. The multi-device interworking scene supervision system for network networking according to claim 4, wherein the judging module comprises:

the second formulating unit is used for designating the preset conditions, wherein the preset conditions comprise a communication link state parameter standard and a test data state standard;

and the judging unit is used for checking the abnormal state of the test data according to the communication link state parameter standard and the test data state standard, and marking the monitoring node generating the abnormal data in the networking topological structure.

6. The multi-device interworking scene supervision system for network networking according to claim 5, wherein the extraction module comprises:

the extraction unit is used for extracting an abnormal communication link with abnormal data in each real-time network networking based on the checking result of the judgment unit on the abnormal state;

the coincidence comparison unit is used for carrying out coincidence comparison on the abnormal communication links in each real-time network networking, and taking the abnormal communication links with the repetition degree exceeding the preset number as fault links;

And the management unit takes the networking equipment related to the fault link as a fault point.

7. The multi-device interworking scene supervision system for network networking according to claim 1, wherein the monitored intensity index is calculated as:

；

wherein,representing the monitoring intensity index->And (5) representing importance weights of the nth networking equipment, wherein n is the number of the networking equipment.

8. The multi-device interworking scene monitoring system for network networking of claim 1, wherein the determination module processes the test data using a pre-trained graph convolutional neural network to determine if the network state is abnormal.