CN117319286A

CN117319286A - Communication data transmission method and system

Info

Publication number: CN117319286A
Application number: CN202311230046.8A
Authority: CN
Inventors: 邹红; 李刚; 王荣; 徐华轩
Original assignee: Hongtu Baiao Technology Guangzhou Co ltd
Current assignee: Hongtu Baiao Technology Guangzhou Co ltd
Priority date: 2023-09-21
Filing date: 2023-09-21
Publication date: 2023-12-29

Abstract

The invention provides a communication data transmission method and system, and relates to the technical field of data processing. In the invention, a target communication gateway device set is constructed based on communication gateway devices which do not belong to abnormal communication gateway devices; determining initial communication gateway equipment in a target communication gateway equipment set; determining terminal communication gateway equipment in a target communication gateway equipment set; based on the corresponding abnormality degree of each communication gateway device in the target communication gateway device set and in combination with the communication connection relation between every two communication gateway devices in the target communication gateway device set, a communication connection link comprising an initial communication gateway device and a terminal communication gateway device is determined in the target communication gateway device set, and data to be transmitted is transmitted from the first communication terminal device to the second communication terminal device based on the communication connection link. Based on the method, the reliability of data transmission can be improved to a certain extent.

Description

Communication data transmission method and system

Technical Field

The invention relates to the technical field of data processing, in particular to a communication data transmission method and system.

Background

In the process of data transmission, one or more gateway devices are generally involved, so as to serve as an intermediate node for data transmission, for example, a data transmitting device sends data to be transmitted to the intermediate node, and then the intermediate node forwards the data to be transmitted to a data receiving device. However, the conventional technique has a problem in that the reliability of data transmission is not high.

Disclosure of Invention

Accordingly, an object of the present invention is to provide a method and a system for transmitting communication data, so as to improve the reliability of data transmission to a certain extent.

In order to achieve the above purpose, the embodiment of the present invention adopts the following technical scheme:

a method of transmitting communication data, comprising:

determining abnormal communication gateway equipment in a plurality of communication gateway equipment included in a communication system, and constructing a target communication gateway equipment set based on the communication gateway equipment which does not belong to the abnormal communication gateway equipment, wherein any one communication gateway equipment in the target communication gateway equipment set is in communication connection with at least one other communication gateway equipment in the target communication gateway equipment set;

determining initial communication gateway equipment in the target communication gateway equipment set, wherein the initial communication gateway equipment is in communication connection with first communication terminal equipment to be subjected to data transmission;

Determining terminal communication gateway equipment in the target communication gateway equipment set, wherein the terminal communication gateway equipment is in communication connection with second communication terminal equipment of a target for data transmission;

and determining a communication connection link comprising the initial communication gateway equipment and the tail end communication gateway equipment in the target communication gateway equipment set based on the corresponding abnormality degree of each communication gateway equipment in the target communication gateway equipment set and combining the communication connection relation between every two communication gateway equipment in the target communication gateway equipment set, and transmitting data to be transmitted from the first communication terminal equipment to the second communication terminal equipment based on the communication connection link, wherein the starting point of the communication connection link is the initial communication gateway equipment, and the end point of the communication connection link is the tail end communication gateway equipment.

In some preferred embodiments, in the above method for transmitting communication data, the step of determining an initial communication gateway device from the set of target communication gateway devices includes:

determining each communication gateway device in communication connection with first communication terminal equipment to be subjected to data transmission in the target communication gateway device set to form a first candidate device set;

And determining initial communication gateway equipment corresponding to the first communication terminal equipment based on the abnormality degree corresponding to each communication gateway equipment in the first candidate equipment set, wherein the initial communication gateway equipment belongs to one communication gateway equipment with no maximum abnormality degree corresponding to the first candidate equipment set.

In some preferred embodiments, in the above method for transmitting communication data, the step of determining an end communication gateway device from the set of target communication gateway devices includes:

determining each communication gateway device in communication connection with a second communication terminal device of a target for data transmission in the target communication gateway device set to form a second candidate device set;

and determining terminal communication gateway equipment corresponding to the second communication terminal equipment based on the abnormality degree corresponding to each communication gateway equipment in the second candidate equipment set, wherein the terminal communication gateway equipment belongs to one communication gateway equipment with no maximum abnormality degree corresponding to the second candidate equipment set.

In some preferred embodiments, in the above communication data transmission method, the step of determining, in the target set of communication gateway devices, a communication connection link including the initial communication gateway device and the end communication gateway device based on the degree of abnormality corresponding to each of the communication gateway devices in the target set of communication gateway devices and in combination with a communication connection relationship between each two of the communication gateway devices in the target set of communication gateway devices, and transmitting data to be transmitted from the first communication terminal device to the second communication terminal device based on the communication connection link includes:

Taking the initial communication gateway equipment as a starting point and the tail end communication gateway equipment as an end point, performing equipment traversal in the target communication gateway equipment set based on a communication connection relation between every two communication gateway equipment in the target communication gateway equipment set to form each traversal path, and combining to form a traversal path set based on each traversal path, wherein the starting point of each traversal path is the initial communication gateway equipment, the tail end point is the tail end communication gateway equipment, and each two adjacent communication gateway equipment in the traversal paths are in communication connection;

for each traversal path in the traversal path set, determining the path abnormality degree corresponding to the traversal path based on the abnormality degree corresponding to each communication gateway device included in the traversal path, wherein the path abnormality degree is used for reflecting the communication security degree corresponding to the traversal path;

determining a traversal path in the traversal path set based on the path abnormality degree corresponding to each traversal path in the traversal path set, and taking the traversal path as a communication connection link;

transmitting data to be transmitted from the first communication terminal device to the second communication terminal device based on the communication connection link.

In some preferred embodiments, in the above method for transmitting communication data, the step of determining, based on a path abnormality degree corresponding to each of the traverse paths in the traverse path set, one traverse path in the traverse path set as a communication connection link includes:

for each traversal path in the traversal path set, determining a first screening parameter corresponding to the traversal path based on the path abnormality degree and a first characterization parameter corresponding to the traversal path, wherein the first screening parameter and the path abnormality degree have a corresponding relationship with negative correlation, the first screening parameter and the first characterization parameter have a corresponding relationship with negative correlation, and the first characterization parameter and the communication gateway equipment comprises a corresponding relationship with positive correlation;

respectively determining path internal association parameters corresponding to each traversing path;

based on the corresponding path internal association parameters, respectively determining second screening parameters corresponding to each traversing path, wherein the second screening parameters are positively correlated with the path internal association parameters;

Respectively carrying out fusion processing on the first screening parameter and the second screening parameter so as to output fusion screening coefficients corresponding to each traversal path;

and taking the traversal path with the maximum corresponding fusion screening coefficient as a communication connection link.

In some preferred embodiments, in the above method for transmitting communication data, the step of determining the path internal association parameter corresponding to each of the traversal paths includes:

combining each two adjacent communication gateway devices in each traversing path in sequence to form a corresponding communication gateway device combination, wherein the communication gateway device combination comprises a first communication gateway device and a second communication gateway device;

extracting the equipment operation data of the first communication gateway equipment to obtain corresponding first equipment operation data, and extracting the equipment operation data of the second communication gateway equipment to obtain corresponding second equipment operation data;

performing feature mining processing on the first equipment operation data and the second equipment operation data respectively to form a corresponding first description vector and a corresponding second description vector;

Performing splicing processing on the associated first description vector corresponding to the first communication gateway device and the first description vector to form a first spliced description vector, wherein the associated first description vector belongs to a description vector corresponding to an adjacent communication gateway device corresponding to the first communication gateway device, and the adjacent communication gateway device belongs to other communication gateway devices except the second communication gateway device and is the first communication gateway device when the second communication gateway device does not exist;

performing splicing processing on the associated second description vector corresponding to the second communication gateway device and the second description vector to form a second spliced description vector, wherein the associated second description vector belongs to a description vector corresponding to adjacent communication gateway devices corresponding to the second communication gateway device, and the adjacent communication gateway devices belong to other communication gateway devices except the first communication gateway device and are the second communication gateway device when the second communication gateway device does not exist;

performing focus feature analysis on the first description vector based on the first spliced description vector to output a corresponding first focus description vector, and performing focus feature analysis on the second description vector based on the second spliced description vector to output a corresponding second focus description vector;

Calculating vector similarity of the first focusing description vector and the second focusing description vector to output equipment association coefficients corresponding to the communication gateway equipment combination;

and for each traversing path, determining a path internal association parameter corresponding to the traversing path based on the equipment association coefficient corresponding to each communication gateway equipment combination included in the traversing path.

In some preferred embodiments, in the above method for transmitting communication data, the step of determining an abnormal communication gateway device from among a plurality of communication gateway devices included in the communication system includes:

marking communication gateway equipment in a communication system to form an object of a map to be processed, determining a map connecting line between the objects of the map to be processed according to each correlation information between the communication gateway equipment, and constructing a distribution map of the objects to be processed corresponding to the communication system according to the objects of the map to be processed and the map connecting line;

based on the associated object information description vector of the communication gateway equipment in the object distribution map to be processed and the self object information description vector corresponding to the communication gateway equipment, analyzing the associated information description vector corresponding to each communication gateway equipment, wherein the self object information description vector is determined based on equipment operation data of the communication gateway equipment;

Analyzing the degree of abnormality corresponding to each communication gateway device based on the related information description vector corresponding to the communication gateway device and the corresponding self object information description vector, wherein the degree of abnormality is used for reflecting the communication security degree corresponding to the communication gateway device;

based on the degree of anomaly, an anomaly communication gateway device is marked in the communication system.

The embodiment of the invention also provides a transmission system of the communication data, which comprises the following steps:

the device set determining module is used for determining abnormal communication gateway devices in a plurality of communication gateway devices included in the communication system, and constructing a target communication gateway device set based on the communication gateway devices which do not belong to the abnormal communication gateway devices, wherein any one communication gateway device in the target communication gateway device set is in communication connection with at least one other communication gateway device in the target communication gateway device set;

the first equipment determining module is used for determining initial communication gateway equipment from the target communication gateway equipment set, and the initial communication gateway equipment is in communication connection with first communication terminal equipment to be subjected to data transmission;

A second device determining module, configured to determine an end communication gateway device from the set of target communication gateway devices, where the end communication gateway device is communicatively connected to a second communication terminal device that is a target for performing data transmission;

and the data transmission control module is used for determining a communication connection link comprising the initial communication gateway equipment and the tail end communication gateway equipment in the target communication gateway equipment set based on the corresponding abnormality degree of each communication gateway equipment in the target communication gateway equipment set and combining the communication connection relation between every two communication gateway equipment in the target communication gateway equipment set, and transmitting data to be transmitted from the first communication terminal equipment to the second communication terminal equipment based on the communication connection link, wherein the starting point of the communication connection link is the initial communication gateway equipment, and the end point of the communication connection link is the tail end communication gateway equipment.

In some preferred embodiments, in the above communication data transmission system, the first device determining module is specifically configured to:

In some preferred embodiments, in the above communication data transmission system, the data transmission control module is specifically configured to:

The method and the system for transmitting communication data provided by the embodiment of the invention can construct a target communication gateway equipment set based on communication gateway equipment which does not belong to abnormal communication gateway equipment; determining initial communication gateway equipment in a target communication gateway equipment set; determining terminal communication gateway equipment in a target communication gateway equipment set; based on the corresponding abnormality degree of each communication gateway device in the target communication gateway device set and in combination with the communication connection relation between every two communication gateway devices in the target communication gateway device set, a communication connection link comprising an initial communication gateway device and a terminal communication gateway device is determined in the target communication gateway device set, and data to be transmitted is transmitted from the first communication terminal device to the second communication terminal device based on the communication connection link. Based on the above, the abnormal communication gateway device is eliminated in the first step, and then the communication connection link is further determined in the relatively safe communication network device based on the corresponding abnormal degree, so that the determined communication connection link has higher safety, and the reliability of data transmission is improved to a certain degree.

In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

Fig. 1 is a block diagram of a communication data transmission platform according to an embodiment of the present invention.

Fig. 2 is a flowchart illustrating steps included in a method for transmitting communication data according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of each module included in the communication data transmission system according to the embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments of the present invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1, an embodiment of the present invention provides a communication data transmission platform. Wherein the communication data transmission platform can comprise a memory and a processor.

In detail, the memory and the processor are electrically connected directly or indirectly to realize transmission or interaction of data. For example, electrical connection may be made to each other via one or more communication buses or signal lines. The memory may store at least one software functional module (computer program) that may exist in the form of software or firmware. The processor may be configured to execute an executable computer program stored in the memory, thereby implementing a method for transmitting communication data provided by an embodiment of the present invention (as described below).

Alternatively, in some embodiments, the Memory may be, but is not limited to, random access Memory (Random Access Memory, RAM), read Only Memory (ROM), programmable Read Only Memory (Programmable Read-Only Memory, PROM), erasable Read Only Memory (Erasable Programmable Read-Only Memory, EPROM), electrically erasable Read Only Memory (Electric Erasable Programmable Read-Only Memory, EEPROM), and the like.

Alternatively, in some embodiments, the processor may be a general purpose processor, including a central processing unit (Central Processing Unit, CPU), a network processor (Network Processor, NP), a System on Chip (SoC), etc.; but also Digital Signal Processors (DSPs), application Specific Integrated Circuits (ASICs), field Programmable Gate Arrays (FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components.

Alternatively, in some embodiments, the communication data transmission platform may be a server with data processing capability.

With reference to fig. 2, an embodiment of the present invention further provides a method for transmitting communication data, which can be applied to the above-mentioned communication data transmission platform. The method steps defined by the flow related to the communication data transmission method can be realized by the communication data transmission platform.

The specific flow shown in fig. 2 will be described in detail.

Step S100, determining an abnormal communication gateway device among a plurality of communication gateway devices included in the communication system, and constructing a target communication gateway device set based on the communication gateway devices not belonging to the abnormal communication gateway device.

In the embodiment of the present invention, the transmission platform of the communication data may determine an abnormal communication gateway device from a plurality of communication gateway devices included in the communication system, and construct a target communication gateway device set based on the communication gateway devices not belonging to the abnormal communication gateway device. Any one communication gateway device in the target communication gateway device set is in communication connection with at least one other communication gateway device in the target communication gateway device set.

Step S200, determining an initial communication gateway device from the set of target communication gateway devices.

In the embodiment of the present invention, the transmission platform of the communication data may determine an initial communication gateway device from the set of target communication gateway devices. The initial communication gateway device is in communication connection with a first communication terminal device to be subjected to data transmission.

And step S300, determining the end communication gateway equipment in the target communication gateway equipment set.

In the embodiment of the present invention, the transmission platform of the communication data may determine an end communication gateway device from the set of target communication gateway devices. The terminal communication gateway device is in communication connection with a second communication terminal device of the target of data transmission.

Step S400, based on the degree of abnormality corresponding to each communication gateway device in the target set of communication gateway devices, and in combination with the communication connection relationship between each two communication gateway devices in the target set of communication gateway devices, determining a communication connection link including the initial communication gateway device and the terminal communication gateway device in the target set of communication gateway devices, and transmitting data to be transmitted from the first communication terminal device to the second communication terminal device based on the communication connection link.

In the embodiment of the present invention, the transmission platform of the communication data may determine, based on the degree of abnormality corresponding to each communication gateway device in the set of target communication gateway devices, a communication connection link including the initial communication gateway device and the end communication gateway device in the set of target communication gateway devices in combination with a communication connection relationship between each two communication gateway devices in the set of target communication gateway devices, and transmit data to be transmitted from the first communication terminal device to the second communication terminal device based on the communication connection link. The starting point of the communication connection link is the initial communication gateway device, and the ending point of the communication connection link is the tail end communication gateway device.

Based on the above steps, as in step S100-step S400, since the abnormal communication gateway device is eliminated in the first step, then the determination of the communication connection link is further performed in the relatively secure communication network device based on the corresponding degree of abnormality, so that the determined communication connection link has higher security, thereby improving the reliability of data transmission to a certain extent.

Optionally, in some embodiments, the step of determining the abnormal communication gateway device in the step S100, that is, the step of determining the abnormal communication gateway device in the plurality of communication gateway devices included in the communication system, may include the following details, such as step S110, step S120, step S130, and step S140.

Step S110, marking communication gateway equipment in a communication system to form to-be-processed map objects, determining map connecting lines between the to-be-processed map objects according to each correlation information between the communication gateway equipment, and constructing a to-be-processed object distribution map corresponding to the communication system according to the to-be-processed map objects and the map connecting lines.

In the embodiment of the invention, the communication data transmission platform can perform marking processing on communication gateway equipment in a communication system to form an object of a map to be processed, determine a map connecting line between the objects of the map to be processed according to each correlation information between the communication gateway equipment, and construct a distribution map of the objects to be processed corresponding to the communication system according to the objects of the map to be processed and the map connecting line.

Step S120, analyzing the relevant information description vector corresponding to each communication gateway device based on the relevant object information description vector of the communication gateway device in the to-be-processed object distribution map and the own object information description vector corresponding to the communication gateway device.

In the embodiment of the present invention, the transmission platform of the communication data may analyze the relevant information description vector corresponding to each communication gateway device based on the associated object information description vector of the communication gateway device in the to-be-processed object distribution map and the own object information description vector corresponding to the communication gateway device. The self-object information description vector is determined based on the device operation data of the communication gateway device, and by way of example, feature mining can be performed on the device operation data through a feature mining unit included in a neural network, such as feature space mapping, convolution operation and the like, so as to obtain the self-object information description vector corresponding to the communication gateway device, where the associated object information description vector may refer to the self-object information description vector corresponding to the to-be-processed spectrum object of the communication gateway device in the to-be-processed object distribution spectrum.

Step S130, analyzing the degree of abnormality corresponding to each communication gateway device based on the related information description vector corresponding to the communication gateway device and the corresponding own object information description vector.

In the embodiment of the invention, the transmission platform of the communication data can analyze the corresponding abnormality degree of each communication gateway device based on the corresponding related information description vector and the corresponding self object information description vector of the communication gateway device. The abnormal degree is used for reflecting the communication security degree corresponding to the communication gateway equipment.

Step S140, marking an abnormal communication gateway device in the communication system based on the degree of abnormality.

In the embodiment of the present invention, the transmission platform of the communication data may mark an abnormal communication gateway device in the communication system based on the degree of abnormality.

Based on the steps, in the process of analyzing the abnormality degree, not only the description vector of the self object information corresponding to the communication gateway equipment but also the description vector of the related information corresponding to the communication gateway equipment are referred, so that the analysis basis is more sufficient and comprehensive, and the reliability of the abnormality analysis of the communication gateway equipment is improved to a certain extent.

Optionally, in some embodiments, the correlation information may include data communication correlation information and data operation correlation information, based on which, in step S110, the communication gateway devices in the communication system are labeled to form to-be-processed graph objects, and according to each correlation information between the communication gateway devices, a graph connecting line between the to-be-processed graph objects is determined, and, according to the to-be-processed graph objects and the graph connecting line, the step of constructing a distribution graph of to-be-processed objects corresponding to the communication system may further include the following details:

marking communication gateway equipment in a communication system to form an object of a map to be processed and form a map connecting line between every two objects of the map to be processed;

based on the data communication correlation information and the data operation correlation information between the communication gateway devices corresponding to each two map objects to be processed, respectively, analyzing correlation characterization parameters between each two map objects to be processed, wherein the data communication correlation information is at least used for reflecting the data interaction quantity and the data interaction times between the communication gateway devices, the data operation correlation information is used for reflecting the number of network interaction devices which are common between the communication network devices, and the network interaction devices are devices with interaction with the communication network devices;

And respectively marking the corresponding correlation characterization parameters to obtain corresponding correlation characterization information, and configuring the correlation characterization information to the map connecting lines to obtain corresponding distribution maps of the objects to be processed.

Optionally, in some embodiments, there are a plurality of correlation characterization parameters between each two to-be-processed map objects, where the plurality of correlation characterization parameters are determined based on a plurality of kinds of correlation information between the to-be-processed map objects, based on which the steps of respectively marking the corresponding correlation characterization parameters to be marked as corresponding correlation characterization information, and configuring the correlation characterization information to the map connecting lines to obtain a corresponding to-be-processed object distribution map may further include the following details:

and performing sum value calculation on the plurality of correlation characterization parameters, marking the output parameters and values to obtain correlation characterization information, and configuring the correlation characterization information to the map connecting lines to obtain corresponding distribution maps of the objects to be processed.

Optionally, in some embodiments, the step S120 of analyzing the relevant information description vector corresponding to each communication gateway device based on the associated object information description vector of the communication gateway device in the to-be-processed object distribution map and the own object information description vector corresponding to the communication gateway device may include the following details:

Constructing an object information description vector set corresponding to the object distribution spectrum to be processed based on the self object information description vector corresponding to each object to be processed in the object distribution spectrum to be processed;

vector integration operation is carried out on the object information description vector set so as to output an integration description vector set corresponding to the to-be-processed object distribution spectrum, the integration description vector set comprises integration object information description vectors corresponding to each to-be-processed spectrum object, and the integration object information description vectors are generated by vector integration operation on the basis of the association object information description vectors corresponding to the to-be-processed spectrum object;

and marking the integrated object information description vector corresponding to each map object to be processed to be marked as the related information description vector corresponding to the communication gateway equipment.

Optionally, in some embodiments, the step of performing a vector integration operation on the object information description vector set to output an integrated description vector set corresponding to the object distribution map to be processed may further include the following details:

Performing a determining operation of a target number of associated to-be-processed spectrum objects on each to-be-processed spectrum object corresponding to the object information description vector set respectively to visualize an associated to-be-processed spectrum object cluster corresponding to each to-be-processed spectrum object, wherein a specific numerical value of the target number is not limited, and the specific numerical value can be selected according to actual application requirements, for example, the associated to-be-processed spectrum object with the maximum target number of corresponding correlation information can be determined;

vector integration operation is carried out on each associated object information description vector corresponding to the associated to-be-processed map object cluster so as to output an integrated object information description vector corresponding to each to-be-processed map object in the to-be-processed object distribution map;

and determining an integration description vector set based on the integration object information description vector corresponding to each to-be-processed map object in the to-be-processed object distribution map.

Optionally, in some embodiments, the step of performing a vector integration operation on each associated object information description vector corresponding to the associated to-be-processed map object cluster to output an integrated object information description vector corresponding to each to-be-processed map object in the to-be-processed object distribution map may further include the following details:

Extracting a vector integration neural network formed by network optimization, wherein the process of network optimization comprises the following steps: vector integration operation is carried out on each sample map object in the sample object distribution map so as to output corresponding related information description vector, and the specific process of network optimization is not limited;

by using the vector integration neural network, vector integration operation is performed on the associated object information description vector corresponding to the associated to-be-processed spectrum object cluster, so as to output an integrated object information description vector corresponding to the to-be-processed spectrum object, an operation object of the vector integration operation includes the associated object information description vector and the self object information description vector, illustratively, each communication gateway device may correspond to a plurality of related information description vectors, for example, the associated object information description vector corresponding to the associated to-be-processed spectrum object cluster includes an associated object information description vector 1, an associated object information description vector 2 and an associated object information description vector 3, so that the associated object information description vector 1 and the self object information description vector may be overlapped to obtain a related information description vector 1, the associated object information description vector 2 and the self object information description vector may be overlapped to obtain a related information description vector 2, and the associated object information description vector 3 and the self object information description vector may be overlapped to obtain a related information description vector 3, illustratively, and when the related information description vectors are overlapped, the related information description vector may be overlapped and the weighted parameter may be represented based on the corresponding correlation parameter.

Optionally, in some embodiments, as described above, each communication gateway device may correspond to a plurality of related information description vectors, based on which, in step S130 described above, that is, the step of analyzing the degree of abnormality corresponding to each communication gateway device based on the related information description vector corresponding to the communication gateway device and the corresponding self object information description vector may further include the following details:

splicing a plurality of related information description vectors corresponding to the communication gateway equipment and corresponding self object information description vectors to output corresponding spliced information description vectors;

and performing anomaly analysis processing on the spliced information description vector, outputting the anomaly degree corresponding to the communication gateway equipment, wherein the anomaly analysis processing can be realized through an anomaly analysis unit included in a neural network, and the anomaly analysis unit can perform excitation mapping output through a softmax function after performing full-connection processing on the spliced information description vector to obtain the corresponding anomaly degree.

Optionally, in some embodiments, the step S140, that is, the step of marking the abnormal communication gateway device in the communication system based on the degree of abnormality, may further include the following details:

For each communication gateway device in the communication system, comparing the corresponding abnormality degree of the communication gateway device with a pre-configured reference abnormality degree, wherein the specific numerical value of the reference abnormality degree is not limited, such as 0.5, 0.6 and the like;

in the case that the degree of abnormality corresponding to the communication gateway device is greater than or equal to the reference degree of abnormality, marking the communication gateway device to be a first communication gateway device, and determining, for each first communication gateway device, a communication gateway device having a communication interaction relationship with the first communication gateway device in the communication gateway devices included in the communication system to form a corresponding interaction device set, for example, the communication gateway device having a communication interaction relationship with the first communication gateway device 1 includes a communication gateway device 2, a communication gateway device 3, a communication gateway device 4, a communication gateway device 5, and a communication gateway device 6, the communication gateway device having a communication interaction relationship with the first communication gateway device 2 includes a communication gateway device 1, a communication gateway device 4, a communication gateway device 3, a communication gateway device 7, a communication gateway device 5, and a communication gateway device 9, and the communication gateway device having a communication interaction relationship with the first communication gateway device 3 includes a communication gateway device 1, a communication gateway device 5, a communication gateway device 7, a communication gateway device 8, a communication gateway device 9, and a communication gateway device 10; the communication gateway device 1 is a first communication gateway device 1, the communication gateway device 2 is a second communication gateway device 2, and the communication gateway device 2 is a second communication gateway device 3;

For each first communication gateway device, determining the device number ratio of the first communication gateway device in the corresponding interaction device set of the first communication gateway device, wherein the device number ratio of the first communication gateway device 1 is 2/5, the device number ratio of the first communication gateway device 2 is 1/6, and the device number ratio of the first communication gateway device 3 is 1/6 as described above;

for each first communication gateway device, when the number of devices corresponding to the first communication gateway device is greater than or equal to a preset reference number of devices, the first communication gateway device is marked as an abnormal communication gateway device, and the specific value of the reference number of devices is not limited, such as 0.1, 0.2, 0.3, and the like. .

Optionally, in some embodiments, the step S200, that is, the step of determining the initial communication gateway device in the target communication gateway device set, may further include the following details:

In the first candidate device set, an initial communication gateway device corresponding to the first communication terminal device is determined based on the degree of abnormality corresponding to each communication gateway device, where the initial communication gateway device belongs to one communication gateway device that does not have the maximum degree of abnormality corresponding to the first candidate device set, and the initial communication gateway device may be any communication gateway device, or may be one communication gateway device with the minimum data processing task.

Optionally, in some embodiments, the step S300, that is, the step of determining an end communication gateway device in the set of target communication gateway devices, may further include the following details:

and determining, in the second candidate device set, an end communication gateway device corresponding to the second communication terminal device based on the degree of abnormality corresponding to each communication gateway device, where the end communication gateway device belongs to one communication gateway device that does not have the maximum degree of abnormality corresponding to the second candidate device set, and may be, for example, any one communication gateway device, or may also be one communication gateway device with the minimum data processing task.

Optionally, in some embodiments, the step S400 mentioned above, that is, the step of determining, based on the degree of abnormality corresponding to each of the communication gateway devices in the target set of communication gateway devices and in combination with the communication connection relationship between each two of the communication gateway devices in the target set of communication gateway devices, a communication connection link including the initial communication gateway device and the end communication gateway device, and transmitting, based on the communication connection link, data to be transmitted from the first communication terminal device to the second communication terminal device may further include the following details:

Optionally, in some embodiments, the step of determining one traversal path in the traversal path set as the communication connection link based on the path abnormality degree corresponding to each traversal path in the traversal path set may further include the following details:

respectively carrying out fusion processing, such as mean value calculation or weighted summation, on the first screening parameter and the second screening parameter so as to output fusion screening coefficients corresponding to each traversing path;

Optionally, in some embodiments, the step of determining the path internal association parameter corresponding to each traversal path may further include the following details:

Based on the first spliced description vector, performing focusing feature analysis on the first description vector to output a corresponding first focusing description vector, by way of example, multiplying the first description vector by a first parameter matrix formed by performing network optimization processing to obtain a first multiplication result, multiplying the first spliced description vector by a second parameter matrix formed by performing network optimization processing to obtain a second multiplication result, multiplying the first spliced description vector by a third parameter matrix formed by performing network optimization processing to obtain a third multiplication result, multiplying a transpose of the second multiplication result by the first multiplication result, outputting a fourth multiplication result, weighting the fourth multiplication result based on a negative correlation coefficient of a vector dimension of the first description vector, normalizing the weighted result, and finally multiplying the normalized result by the third multiplication result to obtain the first focusing description vector;

based on the second spliced description vector, performing focusing characteristic analysis on the second description vector to output a corresponding second focusing description vector, such as the related description;

for each traversal path, determining a path internal association parameter corresponding to the traversal path based on the device association coefficient corresponding to each communication gateway device combination included in the traversal path, where the path internal association parameter may be an average value of the device association coefficients corresponding to each communication gateway device combination included in the traversal path.

With reference to fig. 3, the embodiment of the invention further provides a communication data transmission system, which can be applied to the communication data transmission platform. Wherein, the transmission system of communication data may include:

Optionally, in some embodiments, the first device determining module is specifically configured to:

Optionally, in some embodiments, the data transmission control module is specifically configured to:

In summary, the method and system for transmitting communication data provided by the invention can construct a target communication gateway device set based on communication gateway devices not belonging to abnormal communication gateway devices; determining initial communication gateway equipment in a target communication gateway equipment set; determining terminal communication gateway equipment in a target communication gateway equipment set; based on the corresponding abnormality degree of each communication gateway device in the target communication gateway device set and in combination with the communication connection relation between every two communication gateway devices in the target communication gateway device set, a communication connection link comprising an initial communication gateway device and a terminal communication gateway device is determined in the target communication gateway device set, and data to be transmitted is transmitted from the first communication terminal device to the second communication terminal device based on the communication connection link. Based on the above, the abnormal communication gateway device is eliminated in the first step, and then the communication connection link is further determined in the relatively safe communication network device based on the corresponding abnormal degree, so that the determined communication connection link has higher safety, and the reliability of data transmission is improved to a certain degree.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to 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

1. A method of transmitting communication data, comprising:

2. The method for transmitting communication data according to claim 1, wherein the step of determining an initial communication gateway device from the set of target communication gateway devices comprises:

3. The method for transmitting communication data according to claim 1, wherein the step of determining an end communication gateway device from the set of target communication gateway devices comprises:

4. The communication data transmission method according to claim 1, wherein the step of determining a communication connection link including the initial communication gateway device and the terminal communication gateway device in the target communication gateway device set based on the degree of abnormality corresponding to each of the communication gateway devices in the target communication gateway device set in combination with the communication connection relationship between each two of the communication gateway devices in the target communication gateway device set, and transmitting data to be transmitted from the first communication terminal device to the second communication terminal device based on the communication connection link includes:

5. The method for transmitting communication data according to claim 4, wherein the step of determining one traversal path as the communication connection link in the traversal path set based on the path abnormality degree corresponding to each traversal path in the traversal path set includes:

6. The method for transmitting communication data according to claim 5, wherein the step of determining the path internal association parameter corresponding to each of the traversal paths, respectively, comprises:

7. The transmission method of communication data according to any one of claims 1 to 6, wherein the step of determining an abnormal communication gateway device among a plurality of communication gateway devices included in the communication system includes:

8. A transmission system for communication data, comprising:

9. The communication data transmission system according to claim 8, wherein the first device determining module is specifically configured to:

10. The communication data transmission system according to claim 8, wherein the data transmission control module is specifically configured to: