CN115550976A - Fragmentation network resource fusion communication system based on mobile public network - Google Patents

Abstract

The invention provides a fragmentation network resource fusion communication system based on a mobile public network, which comprises: the network acquisition module acquires networking information among nodes in a target system, the network analysis module acquires a mobile public network accessed by each node and a networking relation among the nodes according to the networking information, a target serial network under the same mobile public network is established, the network processing module clones the target serial network into each mobile public network to generate a corresponding redundant serial network, redundant serial links of the corresponding nodes in the mobile public network are determined, an incidence relation between the target serial links and the corresponding redundant serial links is established, when the target serial links work abnormally, the network adjustment module starts the redundant serial links with the incidence relation to execute original work, standby links are established for each serial link in the system, the standby links can be quickly switched to the standby links under unexpected conditions, and normal operation of the communication system is guaranteed.

Description

Fragmentation network resource fusion communication system based on mobile public network

Technical Field

The invention relates to the technical field of mobile public network communication, in particular to a fragmented network resource fusion communication system based on a mobile public network.

Background

In the prior art, an access point of a mobile public network communication system only has access to one (or one) type of mobile network resource, the mobile public network communication system is often applied to a mobile scenario, and a serial chain network is formed between nodes by depending on one (or one) type of network resource in the mobile scenario environment, which has a lot of problems, for example: the networking path of each node is single, if one node is wrong, the whole system is paralyzed, and if the system is attacked or interrupted, no standby link is available.

In view of this, the present invention provides a fragmented network resource convergence communication system based on a mobile public network.

Disclosure of Invention

According to the fragmentation network resource fusion communication system based on the mobile public network, the standby links are established for the serial links formed by different nodes in the system, and the standby links and the serial links are in different mobile public networks, so that the standby links can be switched to rapidly under unexpected conditions, and the normal operation of the communication system is ensured.

The invention provides a fragmentation network resource fusion communication system based on a mobile public network, which comprises:

the network acquisition module is used for acquiring a plurality of nodes contained in a target system and acquiring networking information among the nodes;

a network analysis module to:

analyzing the networking information, and acquiring a mobile public network accessed by each node and a networking relation among the nodes;

extracting serial links among a plurality of nodes accessed to the same mobile public network;

extracting a target serial link corresponding to a target node with a networking relation, and establishing a target serial network;

a network processing module to:

cloning the target serial network into each mobile public network to generate a corresponding redundant serial network;

determining a redundant serial link of a corresponding node in the mobile public network according to the redundant serial network;

establishing an incidence relation between a target serial link and a corresponding redundant serial link;

and the network adjusting module is used for enabling the redundant serial link with the incidence relation to execute the original work when the target serial link works abnormally.

In one manner that may be implemented,

the mobile public network comprises: at least one of a mobile public network, a public network for connectivity, a public network for telecommunications.

In one manner that may be implemented,

the network acquisition module comprises:

the node acquisition unit is used for traversing a target system by utilizing a preset node sample to acquire a plurality of nodes contained in the target system;

and the information acquisition unit is used for acquiring all nodes with connection relation and acquiring networking information among all the nodes.

In one manner that may be implemented,

the network analysis module comprises:

a network parsing unit configured to:

analyzing the networking information, determining the attribute of each node, inquiring a preset attribute-mobile public network data table according to the attribute, and determining the mobile public network accessed by each node;

analyzing the networking information to acquire networking relations among different nodes;

a network extraction unit to:

recording different nodes accessed to the same mobile public network as a type of node;

acquiring serial links among nodes of the same type;

extracting a target serial link corresponding to a target node with a networking relation;

a network establishment unit configured to:

and acquiring all target serial links, and establishing a target serial network in a preset space.

In one manner that may be implemented,

the network processing module comprises:

a network cloning unit to:

cloning the target serial network into each mobile public network, and generating a redundant serial network with consistent target serial network functions in each mobile public network;

a link generation unit to:

and recording the network cloning process corresponding to each mobile public network, acquiring the redundant serial link corresponding to each target serial link, and establishing an association relation.

In one manner that may be implemented,

the network adjustment module comprises:

a link detection unit to:

detecting whether the current working state of the target system is normal or not;

if not, acquiring a link state corresponding to each target serial link, extracting the target serial link with the abnormal link state, and recording the target serial link as a failure link;

after the standby serial link is started, continuously analyzing whether the current working state of the target system after adjustment is normal;

a link adjustment unit to:

acquiring a target standby serial link corresponding to the failed link;

and closing the failed link and starting the target standby serial link.

In one manner that may be implemented,

the network cloning unit comprises:

an parsing subunit to:

acquiring the target serial network;

analyzing the target serial network to obtain a mobile public network related to the target serial network and a plurality of transmission modes contained in the target serial network;

a modeling subunit to:

respectively acquiring transmission attributes corresponding to each transmission mode;

establishing a corresponding test node for each transmission mode based on the transmission attribute;

acquiring a communication base station corresponding to each mobile public network, and analyzing a communication exchange frequency band corresponding to each mobile public network;

inputting the test nodes into each communication exchange frequency band respectively, and establishing a path function test model corresponding to each mobile public network;

a test subunit to:

acquiring a mobile public network to which each target serial link in the target serial network belongs, and establishing a link-mobile public network comparison list;

inputting the target serial links belonging to the same mobile public network into corresponding function test models based on the link-mobile public network comparison list, and respectively performing function tests on a plurality of test nodes included in the function test models to obtain a plurality of test results;

analyzing a plurality of test results to obtain a link function corresponding to each target serial link;

a cloning subunit for:

marking a link function corresponding to each target serial link on the target serial network;

and cloning the marked target serial network into each mobile public network to generate a corresponding redundant serial network.

In one manner that may be implemented,

the link detection unit includes:

acquiring system attributes of the target system, and matching a corresponding target detection scheme in a preset database;

analyzing the target detection scheme, and acquiring a plurality of detection steps contained in the target detection scheme and a detection message corresponding to each detection step;

a second subunit for:

establishing a detection message sending sequence based on the sequence of the detection steps;

based on the detection message sending sequence, sequentially sending the detection messages to the target system;

a third subunit for:

acquiring a feedback message generated after the target system receives each detection message;

if the number of the feedback messages is inconsistent with the number of the detection messages, determining that the target system is in an abnormal working state;

a fourth subunit for:

when the third subunit determines that the target system is in an abnormal working state, analyzing each detection step and acquiring a target serial link detected by each detection step;

extracting the detection message with failed matching and recording the detection message as a target detection message;

extracting a feedback message with failed matching and recording the feedback message as a target feedback message;

acquiring a detection step corresponding to the target detection message, and recording the detection step as a first detection step;

acquiring a detection step corresponding to the target feedback message, and recording the detection step as a second detection step;

respectively extracting target serial links corresponding to the first detection step and the second detection step, and recording the target serial links as failure links;

recording the current working state corresponding to the failure link as an abnormal state;

a fifth subunit for:

acquiring a standby serial link corresponding to each failed link;

starting the standby serial link, repeating the detection step, and obtaining the current working state of the target system after adjustment;

and analyzing the adjusted current working state of the target system until the enabled standby serial link enables the target system to work normally.

In one manner that may be implemented,

the network adjusting module is further configured to:

detecting whether the target system is in an attacked state or not within a preset time period;

if yes, all target serial links which are started currently in the target system are obtained and recorded as dangerous serial links;

and closing the dangerous serial links and starting the standby serial links corresponding to each dangerous serial link.

In one manner that may be implemented,

the network adjustment module is further configured to:

recording the process of switching the standby serial link of the target system, acquiring data transmitted by the target serial link corresponding to the switched standby serial link within a preset time period, establishing a data exception statistical table, and transmitting the data exception statistical table to a specified terminal for displaying.

Compared with the prior art, the invention has the following beneficial effects:

in order to solve a series of problems caused by single link in the prior art, the nodes in a target system are firstly collected, then the mobile public networks corresponding to each node are analyzed, and because the mobile public networks accessed by different nodes are different, in order to avoid the system breakdown caused by node failure and the failure of the system to continue working when the system is attacked, a redundant serial network with the same function as the target serial network is cloned in different mobile public networks, so that a standby serial link is established for each target serial link, and under the condition, if an accident occurs, the standby serial links can be quickly switched, and the normal working of the target system is ensured.

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

Drawings

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

fig. 1 is a schematic diagram illustrating a fragmented network resource convergence communication system based on a mobile public network according to an embodiment of the present invention;

fig. 2 is a schematic diagram illustrating a fragmented network resource convergence communication system based on a mobile public network according to an embodiment of the present invention.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

Example 1

A fragmented network resource convergence communication system based on a mobile public network, as shown in fig. 1, includes:

the network acquisition module is used for acquiring a plurality of nodes contained in a target system and then acquiring networking information among different nodes;

the network acquisition module is used for acquiring a plurality of nodes contained in a target system and acquiring networking information among the nodes;

a network analysis module to:

analyzing the networking information, and acquiring a mobile public network accessed by each node and a networking relation among the nodes;

extracting serial links among a plurality of nodes accessed to the same mobile public network;

extracting a target serial link corresponding to a target node with a networking relation, and establishing a target serial network;

a network processing module to:

cloning the target serial network into each mobile public network to generate a corresponding redundant serial network;

determining a redundant serial link of a corresponding node in the mobile public network according to the redundant serial network;

establishing an incidence relation between a target serial link and a corresponding redundant serial link;

and the network adjusting module is used for enabling the redundant serial link with the incidence relation to execute the original work when the target serial link works abnormally.

In this example, the target system represents a system for performing communication work;

in this example, the networking information indicates information of a link composed of different nodes;

for example: as shown in fig. 2, node a is connected to node B, node B is connected to node a and node C, respectively, and node C is connected to node B;

in this example, the networking relationship represents the composition relationship of different links;

for example: as shown in fig. 2, the AB link is composed of node a and node B, the BC link is composed of node B and node C, the BA link is composed of node B and node a, and the CB link is composed of node C and node B;

in this example, the target node represents a node included in the target system;

in this example, the mobile public network represents a public network to which the node is connected;

in this example, a serial link means a link composed of different nodes;

for example: AB link, BC link, BA link, CB link as in fig. 2;

in this example, the target serial link represents a serial link that conforms to the properties of the target system, and here may be a serial link involved in the communication process;

in this example, the target serial network represents a communication network composed of links related to communication functions in the target system;

in this example, the redundant serial network represents a network that functions in accordance with the target serial network, but operates under only a single mobile public network;

in this example, the association relationship represents a one-to-one correspondence relationship between the target serial link and the redundant link;

in this example, the redundant serial link means a link generated by cloning the target serial link in the mobile public network, and the link belongs to the redundant serial network.

The working principle and the beneficial effects of the technical scheme are as follows: in order to solve a series of problems caused by single link in the prior art, firstly, the nodes in a target system are collected, then the mobile public network corresponding to each node is analyzed, and because the mobile public networks accessed by different nodes are different, in order to avoid the system breakdown caused by the node failure and the incapability of continuously working when the system is attacked, a redundant serial network with the same function as the target serial network is cloned in different mobile public networks, so that a standby serial link is established for each target serial link, and in this case, if an accident occurs, the standby serial links can be quickly switched to ensure the normal work of the target system.

Example 2

On the basis of the embodiment 1, the fragmented network resource convergence communication system based on the mobile public network comprises:

the mobile public network comprises: at least one of a mobile public network, a connected public network, and a telecommunications public network.

The working principle and the beneficial effects of the technical scheme are as follows: the nodes in the target system are accessed to the three public networks at present, and the system-oriented breadth is improved.

Example 3

On the basis of embodiment 1, the network acquisition module of the fragmented network resource convergence communication system based on the mobile public network includes:

the node acquisition unit is used for traversing a target system by utilizing a preset node sample to acquire a plurality of nodes contained in the target system;

and the information acquisition unit is used for acquiring all the nodes with the connection relation and acquiring networking information among all the nodes.

The working principle and the beneficial effects of the technical scheme are as follows: the node acquisition unit acquires all nodes in the target system, and then the information acquisition unit analyzes networking information among different nodes and lays a foundation for the subsequent work of establishing a standby link.

Example 4

On the basis of embodiment 1, the network analysis module of the fragmented network resource convergence communication system based on the mobile public network includes:

a network parsing unit configured to:

analyzing the networking information, determining the attribute of each node, inquiring a preset attribute-mobile public network data table according to the attribute, and determining a mobile public network accessed by each node;

analyzing the networking information to obtain the networking relationship among different nodes;

a network extraction unit to:

recording different nodes accessed to the same mobile public network as a type of node;

acquiring serial links among nodes of the same type;

extracting a target serial link corresponding to a target node with a networking relation;

a network establishment unit configured to:

and acquiring all target serial links, and establishing a target serial network in a preset space.

In this example, the mobile public network attribute represents an access frequency band attribute of different mobile public networks.

The working principle and the beneficial effects of the technical scheme are as follows: in order to effectively manage the links in the target system, the networking information is analyzed, then the nodes are further analyzed to obtain a plurality of target serial links, and finally all the links are converged to establish a target serial network so as to realize the normal work of the system.

Example 5

On the basis of embodiment 1, the network processing module of the fragmented network resource convergence communication system based on the mobile public network includes:

a network cloning unit to:

cloning the target serial network into each mobile public network, and generating a redundant serial network with consistent target serial network functions in each mobile public network;

a link generation unit to:

and recording the network cloning process corresponding to each mobile public network, acquiring the redundant serial link corresponding to each target serial link, and establishing an association relation.

The working principle and the beneficial effects of the technical scheme are as follows: and a corresponding standby serial link is established for each target serial link by using a cloning method, so that the standby of the links is realized, and the normal operation of a target system is ensured.

Example 6

On the basis of embodiment 1, the network adjusting module of the fragmented network resource convergence communication system based on the mobile public network includes:

a link detection unit to:

detecting whether the current working state of the target system is normal or not;

if not, acquiring a link state corresponding to each target serial link, extracting the target serial link with the abnormal link state, and recording the target serial link as a failure link;

after the standby serial link is started, continuously analyzing whether the current working state of the target system after adjustment is normal;

a link adjustment unit to:

acquiring a target standby serial link corresponding to the failed link;

and closing the failed link and starting the target standby serial link.

In this example, the link exception may be a node outage.

The working principle and the beneficial effects of the technical scheme are as follows: in order to ensure the normal work of the target system and avoid data leakage, the link detection unit detects the working state of the target system and the working state of the target system is normal, then extracts an abnormal invalid link from the working state, starts a standby serial link of the invalid link to replace the realization of the corresponding work of the link, and avoids the system paralysis caused by the interruption of one node.

Example 7

On the basis of embodiment 5, the network cloning unit in the fragmented network resource convergence communication system based on the mobile public network includes:

an parsing subunit to:

acquiring the target serial network;

analyzing the target serial network to obtain a mobile public network related to the target serial network and a plurality of transmission modes contained in the target serial network;

a modeling subunit to:

respectively acquiring transmission attributes corresponding to each transmission mode;

establishing a corresponding test node for each transmission mode based on the transmission attribute;

acquiring a communication base station corresponding to each mobile public network, and analyzing a communication exchange frequency band corresponding to each mobile public network;

inputting the test nodes into each communication exchange frequency band respectively, and establishing a path function test model corresponding to each mobile public network;

a test subunit to:

acquiring a mobile public network to which each target serial link in the target serial network belongs, and establishing a link-mobile public network comparison list;

inputting the target serial links belonging to the same mobile public network into corresponding function test models based on the link-mobile public network comparison list, and respectively performing function tests on a plurality of test nodes included in the function test models to obtain a plurality of test results;

analyzing a plurality of test results to obtain a link function corresponding to each target serial link;

a cloning subunit for:

marking a link function corresponding to each target serial link on the target serial network;

and cloning the marked target serial network into each mobile public network to generate a corresponding redundant serial network.

In this example, the transmission mode indicates a mode in which the target serial link transmits data;

in this example, the transmission attribute indicates the type of data that the target serial link can transmit;

in this example, the communication base station represents a device used by different mobile public networks to transmit radio;

in this example, the communication exchange band indicates a signal band in which communication data transmission is performed;

in this example, the test node represents an intermediary used to test the transmission of each target serial link;

in this example, the path function test model represents a model for each target serial link transmission mode;

in this example, the process of detecting the transmission mode of each target serial link by using the path test model includes: connecting the target serial link with a first test node to transmit corresponding data, if the target serial link cannot transmit the data after being connected with the first test node, indicating that the target serial link is inconsistent with the test node, switching a next test node until the data can be transmitted, and then enabling a transmission mode corresponding to the test node capable of realizing transmission to be the transmission mode of the target serial link;

in this example, the link function means a function of transmitting a prescribed type of transmission data per target serial link;

in this example, the link-public network comparison list represents a comparison table of the mobile public network to which each target serial network is accessed;

for example, as shown in fig. 2, if node a belongs to a mobile public network, node B belongs to a connected public network, and node C belongs to a telecommunication public network, then link AB, link BA access the mobile public network and the connected public network, and link BC, link CB access the connected public network and the telecommunication public network.

The working principle and the beneficial effects of the technical scheme are as follows: in order to overcome the condition that a link in a target system is single and avoid the phenomenon that a node fails to cause system paralysis, the function of each link in a target serial network is analyzed, and then a redundant serial network with the same function as the target serial network is copied under each mobile public network, so that two standby serial networks are established for each target serial link, the function of multi-path switching can be realized, and the normal operation of the target system is ensured.

Example 8

On the basis of embodiment 6, the link detection unit in the fragmented network resource convergence communication system based on the mobile public network includes:

a first subunit for:

acquiring system attributes of the target system, and matching a corresponding target detection scheme in a preset database;

analyzing the target detection scheme, and acquiring a plurality of detection steps contained in the target detection scheme and a detection message corresponding to each detection step;

a second subunit for:

establishing a detection message sending sequence based on the sequence of the detection steps;

based on the detection message sending sequence, sequentially sending the detection messages to the target system;

a third subunit for:

acquiring a feedback message generated after the target system receives each detection message;

if the number of the feedback messages is inconsistent with the number of the detection messages, determining that the target system is in an abnormal working state;

a fourth subunit for:

when the third subunit determines that the target system is in an abnormal working state, analyzing each detection step and acquiring a target serial link detected by each detection step;

extracting the detection message with failed matching and recording the detection message as a target detection message;

extracting a feedback message with failed matching and recording the feedback message as a target feedback message;

acquiring a detection step corresponding to the target detection message, and recording the detection step as a first detection step;

acquiring a detection step corresponding to the target feedback message, and recording the detection step as a second detection step;

respectively extracting target serial links corresponding to the first detection step and the second detection step, and recording as failure links;

recording the current working state corresponding to the failure link as an abnormal state;

a fifth subunit for:

acquiring a standby serial link corresponding to each failed link;

starting the standby serial link, repeating the detection step, and obtaining the current working state of the target system after adjustment;

and analyzing the adjusted current working state of the target system until the enabled standby serial link enables the target system to work normally.

In this example, the preset database represents a database that includes different detection schemes for systems with different attributes, and a system with the same attribute corresponds to one detection scheme;

in this example, the system attributes represent the manner in which the target system performs the transfer job, including: threshold value of transmission data, type of transmission data, etc.;

in this example, the target detection scheme represents a method for detecting a target serial network function in a target system;

in this example, the detection message represents a message transmitted as if it were being detected on the target system;

in this example, the feedback message represents a feedback generated after the target system receives the detection message;

in this example, a failed link represents a link that is not able to accept a detection message and is not able to generate a feedback message.

The working principle and the beneficial effects of the technical scheme are as follows: in order to ensure that each target serial link in a target system can work normally, the target system is detected, firstly, a corresponding detection scheme is matched for the target system according to the attribute of the target system, then, detection is carried out, whether the working state of each link in the target system is normal or not is analyzed, a standby link corresponding to an abnormal link can be extracted in the detection process, the standby link is switched in time, the normal work of the system is ensured, the communication efficiency of the system is improved to a certain extent, and the phenomenon of data blockage is avoided.

Example 9

On the basis of embodiment 6, in the fragmented network resource convergence communication system based on the mobile public network, the network adjusting module is further configured to:

detecting whether the target system is in an attacked state or not within a preset time period;

if yes, all target serial links started currently in the target system are obtained and recorded as dangerous serial links;

and closing the dangerous serial links and starting the standby serial links corresponding to each dangerous serial link.

The working principle and the beneficial effects of the technical scheme are as follows: in order to ensure the safety of a target system and avoid data loss, whether the target system is attacked or not is detected within a preset time period, and a standby link is switched in time when the target system is attacked, so that the normal work of the system is ensured.

Example 10

On the basis of embodiment 1, the network adjusting module is further configured to:

recording the process of switching the standby serial link of the target system, acquiring data transmitted by the target serial link corresponding to the switched standby serial link within a preset time period, establishing a data exception statistical table, and transmitting the data exception statistical table to a specified terminal for displaying.

The working principle and the beneficial effects of the technical scheme are as follows: recording the process of switching the standby link, acquiring the data transmitted before switching, and generating a data exception statistical table for providing reference for users.

Example 11

On the basis of embodiment 7, in the fragmented network resource convergence communication system based on the mobile public network, the cloning subunit is further configured to:

acquiring the target serial network;

analyzing the target serial networks, acquiring the mobile public network to which each target serial network is not accessed, and establishing a list to be cloned;

acquiring target links to be cloned corresponding to the same mobile public network;

calculating the clone scale corresponding to each mobile public network according to a formula (I);

wherein D represents the clone size of the mobile public network, a ₁ Indicating a path specification adjustment parameter, P, between the current mobile public network and a first mobile public network other than itself _i Representing the link length of the ith target link to be cloned in the first mobile public network, n representing the number of target links to be cloned in the first mobile public network, b _i Representing a cloning parameter, b 'corresponding to the ith target link to be cloned in the first mobile public network' _i Representing the mean value cloning parameters corresponding to all target links to be cloned in the first mobile public network, a ₂ Indicating a path specification adjustment parameter, P, between a current mobile public network and a second mobile public network other than the current mobile public network _k Representing the link length of the kth target link to be cloned in the second mobile public network, b _k Representing a cloning parameter, b 'corresponding to the kth target link to be cloned in the second mobile public network' _k Representing mean value cloning parameters corresponding to all target links to be cloned in the second mobile public network;

respectively obtaining the clone scale corresponding to each mobile public network according to the calculation result of the formula (I);

and respectively establishing corresponding cloning scales in each mobile public network to perform cloning work.

In this example, the clone size represents the size of the space size occupied by the cloning of the target serial network into a different mobile public network.

The working principle and the beneficial effects of the technical scheme are as follows: in order to ensure that the cloning work is carried out smoothly and avoid the overflow of a link caused by excessive data in the mobile public network, the space scale required to be prepared in each mobile public network is calculated before cloning is carried out, and then cloning is carried out, so that the validity of a cloning result is ensured.

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

Claims (10)

1. A fragmentation network resource convergence communication system based on a mobile public network is characterized by comprising:

the network acquisition module is used for acquiring a plurality of nodes contained in a target system and acquiring networking information among the nodes;

a network analysis module to:

analyzing the networking information, and acquiring a mobile public network accessed by each node and a networking relation among the nodes;

extracting serial links among a plurality of nodes accessed to the same mobile public network;

extracting a target serial link corresponding to a target node with a networking relationship, and establishing a target serial network;

a network processing module to:

cloning the target serial network into each mobile public network to generate a corresponding redundant serial network;

determining a redundant serial link of a corresponding node in the mobile public network according to the redundant serial network;

establishing an incidence relation between a target serial link and a corresponding redundant serial link;

and the network adjusting module is used for enabling the redundant serial link with the incidence relation to execute the original work when the target serial link works abnormally.

2. The system according to claim 1, wherein the system comprises:

the mobile public network comprises: at least one of a mobile public network, a public network for connectivity, a public network for telecommunications.

3. The system according to claim 1, wherein the network acquisition module comprises:

the node acquisition unit is used for traversing a target system by utilizing a preset node sample to acquire a plurality of nodes contained in the target system;

and the information acquisition unit is used for acquiring all the nodes with the connection relation and acquiring networking information among all the nodes.

4. The system according to claim 1, wherein the network analysis module comprises:

a network parsing unit configured to:

analyzing the networking information, determining the attribute of each node, inquiring a preset attribute-mobile public network data table according to the attribute, and determining a mobile public network accessed by each node;

analyzing the networking information to acquire networking relations among different nodes;

a network extraction unit to:

recording different nodes accessed to the same mobile public network as a type of node;

acquiring serial links among nodes of the same type;

extracting a target serial link corresponding to a target node with a networking relationship;

a network establishment unit configured to:

and acquiring all target serial links, and establishing a target serial network in a preset space.

5. The system according to claim 1, wherein the network processing module comprises:

a network cloning unit to:

cloning the target serial network into each mobile public network, and generating a redundant serial network with consistent target serial network functions in each mobile public network;

a link generation unit to:

and recording the network cloning process corresponding to each mobile public network, acquiring the redundant serial link corresponding to each target serial link, and establishing an association relation.

6. The system according to claim 1, wherein the network adjusting module comprises:

a link detection unit to:

detecting whether the current working state of the target system is normal or not;

if not, acquiring a link state corresponding to each target serial link, extracting the target serial link with the abnormal link state, and recording the target serial link as a failure link;

after the standby serial link is started, continuously analyzing whether the current working state of the target system after adjustment is normal;

a link adjustment unit to:

acquiring a target standby serial link corresponding to the failed link;

and closing the failed link and starting the target standby serial link.

7. The system according to claim 5, wherein the network cloning unit comprises;

an parsing subunit to:

acquiring the target serial network;

analyzing the target serial network to obtain a mobile public network related to the target serial network and a plurality of transmission modes contained in the target serial network;

a modeling subunit to:

respectively acquiring transmission attributes corresponding to each transmission mode;

establishing a corresponding test node for each transmission mode based on the transmission attribute;

acquiring a communication base station corresponding to each mobile public network, and analyzing a communication exchange frequency band corresponding to each mobile public network;

inputting the test nodes into each communication exchange frequency band respectively, and establishing a path function test model corresponding to each mobile public network;

a test subunit to:

acquiring a mobile public network to which each target serial link in the target serial network belongs, and establishing a link-mobile public network comparison list;

inputting the target serial links belonging to the same mobile public network into corresponding function test models based on the link-mobile public network comparison list, and respectively performing function tests on a plurality of test nodes included in the function test models to obtain a plurality of test results;

analyzing a plurality of test results to obtain a link function corresponding to each target serial link;

a cloning subunit for:

marking a link function corresponding to each target serial link on the target serial network;

and cloning the marked target serial network into each mobile public network to generate a corresponding redundant serial network.

8. The system according to claim 6, wherein the link detection unit comprises;

a first subunit for:

acquiring system attributes of the target system, and matching a corresponding target detection scheme in a preset database;

analyzing the target detection scheme, and acquiring a plurality of detection steps contained in the target detection scheme and a detection message corresponding to each detection step;

a second subunit for:

establishing a detection message sending sequence based on the sequence of the detection steps;

based on the detection message sending sequence, sequentially sending the detection messages to the target system;

a third subunit for:

acquiring a feedback message generated after the target system receives each detection message;

if the number of the feedback messages is inconsistent with the number of the detection messages, determining that the target system is in an abnormal working state;

a fourth subunit for:

when the third subunit determines that the target system is in an abnormal working state, analyzing each detection step, and acquiring a target serial link detected in each detection step;

extracting the detection message with failed matching and recording the detection message as a target detection message;

extracting a feedback message with failed matching and recording the feedback message as a target feedback message;

acquiring a detection step corresponding to the target detection message, and recording the detection step as a first detection step;

acquiring a detection step corresponding to the target feedback message, and recording the detection step as a second detection step;

respectively extracting target serial links corresponding to the first detection step and the second detection step, and recording as failure links;

recording the current working state corresponding to the failure link as an abnormal state;

a fifth subunit for:

acquiring a standby serial link corresponding to each failed link;

starting the standby serial link, repeating the detection step, and obtaining the current working state of the target system after adjustment;

and analyzing the adjusted current working state of the target system until the enabled standby serial link enables the target system to work normally.

9. The system according to claim 6, wherein the network adjusting module is further configured to:

detecting whether the target system is in an attacked state or not within a preset time period;

if yes, all target serial links which are started currently in the target system are obtained and recorded as dangerous serial links;

and closing the dangerous serial links, and starting the standby serial link corresponding to each dangerous serial link.

10. The system according to claim 1, wherein the network adjusting module is further configured to:

recording the process of switching the standby serial link of the target system, acquiring data transmitted by the target serial link corresponding to the switched standby serial link within a preset time period, establishing a data exception statistical table, and transmitting the data exception statistical table to a specified terminal for displaying.

Images