CN114374626B - Router performance detection method under 5G network condition - Google Patents

Abstract

The invention discloses a router performance detection method under 5G network condition, which comprises the following steps: step 1: and (2) establishing a virtual network according to the IP address of the router to be detected, and step 2: switching the router to be detected to a 5G state, transmitting detection data to detection equipment through the virtual network, and 3: receiving corresponding first data based on the detection equipment, establishing a folder with a preset format, and storing a topology file corresponding to the virtual network, and step 4: and analyzing the topology file, judging the performance of the router to be detected in the 5G state, and judging the performance of the router to be detected in the 5G state for the user to refer to by setting up a virtual network related to the router to be detected and detecting the virtual network.

Description

Router performance detection method under 5G network condition

Technical Field

The invention relates to the field of 5G routers, in particular to a router performance detection method under the condition of a 5G network.

Background

With the advent of 5G official business, more and more businesses and individuals enjoy the benefits of the new technological changes brought about by the 5G network. The 5G network has three main characteristics: the high capacity, high speed, low delay for people throw the sight to the thing networking that has abundant development prospect in this respect, people hope to realize the functional application of thing networking through 5G. As a basis of all the above, the industrial router capable of using 5G is expected to develop for the practical application of the internet of things, and the detection method of the traditional router is gradually eliminated with the development of new technology;

therefore, the invention provides a router performance detection method under the condition of a 5G network, which is used for detecting the performance of a router under the 5G network by establishing a virtual network.

Disclosure of Invention

The invention provides a router performance detection method under the condition of a 5G network, which is used for detecting the performance of a router under the 5G network by establishing a virtual network.

The invention provides a router performance detection method under the condition of a 5G network, which comprises the following steps:

step 1: building a virtual network according to the IP address of the router to be detected;

and 2, step: switching the router to be detected to a 5G state, and transmitting detection data to detection equipment through the virtual network;

and step 3: based on the detection equipment receiving the corresponding first data, establishing a folder with a preset format, and storing a topology file corresponding to the virtual network;

and 4, step 4: and analyzing the topology file, and judging the performance of the router to be detected in the 5G state.

In one way of realisation it is possible to,

step 1: according to the IP address of the router to be detected, the virtual network is built, which comprises the following steps:

constructing a virtual router according to various parameters of the router to be detected, starting the virtual router and collecting working parameters of the virtual router;

the working parameters are collected, the attribute of each working parameter is analyzed, a plurality of working parameter attribute categories are established, corresponding transmission links are matched for each category respectively, and a virtual network is formed.

In one way of realisation it is possible to,

step 2: the router to be detected is switched to the 5G state, and before the detection data is transmitted to the detection equipment through the virtual network, the method comprises the following steps:

and (3) acquiring a first network speed of the router to be detected in a 5G connection state, and executing the step (2) when the first network speed is not accordant with a preset network speed.

In one way of realisation it is possible to,

and 3, step 3: receiving corresponding first data based on detection equipment, establishing a folder with a preset format, and storing a topology file corresponding to a virtual network, wherein the method comprises the following steps:

naming the corresponding folder;

recording corresponding first data in the folder;

and acquiring the transmission duration of the first data, acquiring a second network speed and storing the second network speed in a topology file corresponding to the virtual network.

In one way of realisation it is possible to,

acquiring the transmission duration of the first data, acquiring a second network speed and storing the second network speed in a topology file corresponding to a virtual network, wherein the method comprises the following steps:

and when the detection equipment does not receive the first data, determining that the router to be detected is in a disconnection state, and displaying on the detection equipment.

In one way of realisation it is possible to,

and 4, step 4: analyzing the topology file, and judging the performance of the router to be detected in the 5G state, wherein the method comprises the following steps:

constructing a data type table of the topology file according to the node information of the topology file;

counting various types of data in the data type table;

determining whether the corresponding topology file is qualified or not according to the statistical result, and acquiring the unqualified nodes in the corresponding topology file when the topology file is unqualified

And acquiring unqualified nodes, and transmitting the unqualified nodes to the detection equipment for display.

In one way of realisation it is possible to,

step 1: according to the IP address of the router to be detected, the virtual network is established, and the method further comprises the following steps:

establishing a prototype network according to the IP address type of the router to be detected, and establishing a plurality of groups of virtual links for the prototype network according to the number of the connecting devices of the router to be detected;

marking a link inflection point according to a cross relation between different virtual links;

analyzing the time slot capacity of each virtual link related to the inflection point of the same link at the inflection point, sequencing the virtual links according to the time slot capacity, constructing a link specific gravity table, and adjusting a path corresponding to each virtual link on the rudiment network based on the link specific gravity table;

establishing all path nodes contained in the adjusted virtual link, respectively establishing corresponding time slot codes for each path node, sequentially copying the time slot codes on a target image consistent with a corresponding network, and drawing a related range enclosure corresponding to each time slot code on the target image based on a frequency slot corresponding to each time slot code;

according to the overlapping area between the related range surrounding circles, establishing a public link point, establishing sub-link points which are equal to the total number of virtual links related to the same public link point, connecting the sub-link points with corresponding virtual links, widening the path of the virtual links at the corresponding public link points, and forming a primary network;

allocating flow with corresponding proportion to each virtual link in the primary network according to the corresponding path length and the maximum path width of each virtual link;

meanwhile, establishing a path length-transmission time relation list;

starting the primary network, respectively checking the utilization rate of each virtual link and the transmission time length of each virtual link by using a preset frequency spectrum window function, eliminating the virtual links with the utilization rate of 0 in the primary network, and simultaneously adjusting the road widths of the virtual links with different road lengths according to a road length-transmission time length relation list;

and matching the corresponding virtual link for the working parameters in the primary network, and adjusting the spatial layout of the virtual link to build and obtain the virtual network.

In one way of realisation it is possible to,

before a prototype network is established according to the IP address type of the router to be detected, the method comprises the following steps:

acquiring the IP address of the router to be detected;

acquiring residual equipment connected on the IP address, performing short-time disconnection work on the residual equipment, and simultaneously acquiring a first channel connected with a router to be detected corresponding to the IP address;

and when the sub-channel exists on the first channel, acquiring the interference intensity of the sub-channel, and performing interference removal work on the first channel until the sub-channel does not exist on the first channel, and establishing a rudiment network according to the IP address and the length of the first channel.

In one way of realisation it is possible to,

and 3, step 3: receiving corresponding first data based on the detection equipment, establishing a folder with a preset format, and storing a topology file corresponding to the virtual network, further comprising:

respectively collecting login passwords of the router to be detected, judging whether the login passwords are consistent with a preset format folder, if not, adjusting the login passwords to perform format coordination with the preset format folder, and obtaining target login passwords;

performing breakpoint detection on the target login password, and determining that the router to be detected is in an abnormal state currently when the target login password has a breakpoint;

acquiring a plurality of hierarchical structures of the first data, marking data nodes in each hierarchical structure, acquiring edge data nodes of each hierarchy, and sequentially connecting the edge data nodes in corresponding hierarchies to acquire data edges of the corresponding hierarchical structures;

establishing a data dynamic model according to the data nodes and the data edges of each hierarchical structure, checking the credibility of the dynamic model by using preset second data, and constructing a data failure model related to first data when the credibility of the dynamic model meets a preset requirement;

inputting the detection data into the failure model for training, acquiring third data and recording the third data in the folder;

establishing a comparison axis in the folder, inputting the detection data, the first data and the third data to the comparison axis, taking the detection data as a reference, acquiring corresponding data quantities of the first data and the third data under the same axis point, and establishing a data failure list;

analyzing the data failure list, when the first data and the third data fail at the same axial point at the same time, acquiring the position of the axial point, marking the detected data as a failure point, and acquiring the data attribute corresponding to the failure point;

collecting all failure points and corresponding data attributes, matching corresponding virtual links for different data attributes, and generating corresponding topology files;

and analyzing each topology file to judge the fault type of the router to be detected, and transmitting the fault type to the detection equipment for displaying.

In one way of realisation it is possible to,

collecting all failure points and corresponding data attributes, matching corresponding virtual links for different data attributes, and generating corresponding topology files, including:

dividing the failure points into a plurality of attribute categories according to the data attributes corresponding to the failure points;

extracting a relevant virtual link in the virtual network according to the attribute type;

and establishing a virtual link corresponding relation according to the position of the failure point on the detection data, and matching in the related virtual link to generate a corresponding topology file.

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

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

Drawings

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

Fig. 1 is a schematic flowchart of a method for detecting performance of a router under 5G network conditions according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a virtual network building process of a router performance detection method under a 5G network condition according to an embodiment of the present invention;

fig. 3 is a schematic comparison axis diagram of a method for detecting router performance under 5G network conditions according to an embodiment of the present invention;

fig. 4 is a schematic view of a virtual network detection flow of a router performance detection method under a 5G network condition 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

An embodiment of the present invention provides a method for detecting a router performance under a 5G network condition, as shown in fig. 1, including:

step 1: building a virtual network according to the IP address of the router to be detected;

step 2: switching the router to be detected to a 5G state, and transmitting detection data to detection equipment through the virtual network;

and 3, step 3: based on the detection equipment receiving the corresponding first data, establishing a folder with a preset format, and storing a topology file corresponding to the virtual network;

and 4, step 4: and analyzing the topology file, and judging the performance of the router to be detected in the 5G state.

In this example, the virtual network represents a visual network established on a display screen according to a network relationship between the router to be detected and a device connected to the router to be detected;

in this example, the detection data represents preset data for detecting characteristics of the virtual network;

in this example, the first data represents sensed data received by the sensing device;

in this example, the folder in the preset format represents a folder in the net format as a suffix;

in this example, the topology file represents a file that records operation data of the corresponding virtual network.

The beneficial effects of the above technical scheme are as follows: in order to facilitate the detection of the working performance of the router to be detected in the 5G state, the performance of the router to be detected in the 5G state is judged for the reference of a user by setting up a virtual network related to the router to be detected and detecting the virtual network, so that the user can obtain the current condition of the router to be detected without arriving at the site.

Example 2

On the basis of embodiment 1, the method for detecting the performance of the router under the 5G network condition includes the following steps: according to the IP address of the router to be detected, the virtual network is established, which comprises the following steps:

constructing a virtual router according to various parameters of the router to be detected, starting the virtual router and collecting working parameters of the virtual router;

the working parameters are collected, the attribute of each working parameter is analyzed, a plurality of working parameter attribute categories are established, corresponding transmission links are matched for each category respectively, and a virtual network is formed.

In this example, the virtual router represents a simulation model displayed on a display screen that has the same performance as the actual router;

in this example, the working parameters represent data parameters corresponding to each function of the router to be checked.

The beneficial effects of the above technical scheme are as follows: in order to facilitate analysis of the router to be detected, the working parameters of the router to be detected are obtained, so that a virtual router with the same function as the router to be detected is constructed, the state of the router to be detected can be judged by observing the virtual router on a display screen, the working parameters of the router to be detected are summarized, and each type of working parameters is matched with a transmission link to form a virtual network for subsequent detection.

Example 3

On the basis of embodiment 1, the method for detecting the performance of the router under the 5G network condition includes the following steps: the router to be detected is switched to the 5G state, and detection data are transmitted to the detection equipment through the virtual network, wherein the method comprises the following steps:

and acquiring a first network speed of the router to be detected in a 5G connection state, and executing the step 2 when the first network speed does not accord with a preset network speed.

In this example, the first wire speed represents the wire speed of the router to be checked in the 5G connection state.

The beneficial effects of the above technical scheme are as follows: in order to save the detection cost, when the router to be detected operates, the first network speed of the router in the 5G state is acquired and judged, and the detection work is carried out when the first network speed is not accordant with the preset network speed.

Example 4

On the basis of embodiment 1, the method for detecting the performance of the router under the 5G network condition includes the following steps: receiving corresponding first data based on detection equipment, establishing a folder with a preset format, and storing a topology file corresponding to a virtual network, wherein the method comprises the following steps:

naming the corresponding folder;

recording corresponding first data in the folder;

and acquiring the transmission duration of the first data, acquiring a second network speed and storing the second network speed in a topology file corresponding to the virtual network.

In this example, the second wire speed represents the wire speed for transmitting data through the virtual network.

The beneficial effects of the above technical scheme are as follows: in order to facilitate recording of data generated in the detection process, a folder with a preset format is established, first data are recorded, in order to obtain the network speed of the virtual network, the transmission duration of the first data is collected, a second network speed is obtained, the obtained result is transmitted to the topology file to be stored, and subsequent use is facilitated.

Example 5

On the basis of embodiment 4, the method for detecting router performance under 5G network conditions is characterized in that acquiring the transmission duration of the first data, acquiring the second network speed, and storing the second network speed in a topology file corresponding to a virtual network includes:

and when the detection equipment does not receive the first data, determining that the router to be detected is in a disconnection state, and displaying on the detection equipment.

The beneficial effects of the above technical scheme are that: in order to make the system more intelligent and avoid the defect that the detection equipment still waits to receive the first data when the router is in a broken link state, when the detection equipment does not receive the first data, the router to be detected can be determined to be in a short-circuit state, and a determination result is transmitted to the detection equipment.

Example 6

On the basis of the embodiment 1, the method for detecting the performance of the router under the 5G network condition is characterized in that the step 4: analyzing the topology file, and judging the performance of the router to be detected in the 5G state, wherein the method comprises the following steps:

constructing a data type table of the topology file according to the node information of the topology file;

counting various types of data in the data type table;

determining whether the corresponding topology file is qualified or not according to the statistical result, and acquiring the unqualified nodes in the corresponding topology file when the topology file is unqualified

And acquiring unqualified nodes, and transmitting the unqualified nodes to the detection equipment for display.

In this example, the node information of the topology file represents the data information of the data intersection point in the topology file and the data type of each data segment;

in this example, the data type table indicates the data types contained in the topology file and the amount of each type of data;

in this example, a failed node represents a node with data missing or missing.

The beneficial effects of the above technical scheme are that: in order to analyze the topology file, the node information of the topology file is classified, and according to the constructed data type table, when the topology file is unqualified, the unqualified node of the topology file is obtained and transmitted to the detection equipment for the user to check.

Example 7

On the basis of embodiment 1, the method for detecting the performance of the router under the 5G network condition is characterized in that the step 1: according to the IP address of the router to be detected, the virtual network is established, and the method further comprises the following steps:

establishing a prototype network according to the IP address type of the router to be detected, and establishing a plurality of groups of virtual links for the prototype network according to the number of the connection devices of the router to be detected;

marking a link inflection point according to a cross relation between different virtual links;

analyzing the time slot capacity of each virtual link related to the same link inflection point at the inflection point, sequencing the virtual links according to the time slot capacity, constructing a link specific gravity table, and adjusting a path corresponding to each virtual link on the prototype network based on the link specific gravity table;

establishing all path nodes contained in the adjusted virtual link, respectively establishing corresponding time slot codes for each path node, sequentially copying the time slot codes on a target image consistent with a corresponding network, and drawing a related range enclosure corresponding to each time slot code on the target image based on a frequency slot corresponding to each time slot code;

according to the overlapping area between the related range surrounding circles, establishing a public link point, establishing sub-link points which are equal to the total number of virtual links related to the same public link point, connecting the sub-link points with corresponding virtual links, widening the path of the virtual links at the corresponding public link points, and forming a primary network;

allocating flow with corresponding proportion to each virtual link in the primary network according to the corresponding path length and the maximum path width of each virtual link;

meanwhile, establishing a path length-transmission time relation list;

starting the primary network, respectively checking the utilization rate of each virtual link and the transmission time length of each virtual link by using a preset frequency spectrum window function, eliminating the virtual links with the utilization rate of 0 in the primary network, and simultaneously adjusting the road widths of the virtual links with different road lengths according to a road length-transmission time length relation list;

and matching the corresponding virtual link for the working parameters in the primary network, and adjusting the spatial layout of the virtual link to build and obtain the virtual network.

In this example, the prototype network represents a virtual network prototype established based on the IP address, and specifies the swept range of the virtual network;

in this example, the virtual link represents the connection relationship between the router to be detected and the connection device;

in this example, a link inflection point represents an intersection point of two or more different virtual links at the same position on the same prototype network;

in this example, the slot capacity represents the minimum unit amount of information transmission at this inflection point for the corresponding virtual link;

in this example, the link specific gravity table represents a list that is sorted by time slot capacity for a plurality of virtual links included in one link inflection point, and is established by time slot capacity;

in this example, the way node represents a data point contained in the virtual link;

in this example, the target image represents a preset blank image, and is used for copying the time slot code and constructing a related range surrounding ring corresponding to the time slot code;

in this example, the timeslot code represents a code corresponding to each path of node on the virtual link;

in this example, the overlapping area means the area of the overlapping portions of the two or more enclosure rings;

in this example, the common link point represents a point at which two or more virtual links intersect at the same position;

in this example, the child link points represent points connected to the virtual links, which are included in the common link point;

in this example, the primary network represents a primary virtual network established from virtual links;

in this example, the preset spectral window function may be a hamming window function;

in this example, the path length-transmission time length relationship list represents the time length required for data transmission under the path length established according to the path length of the virtual link, and generally, the path length is positively correlated with the transmission time length.

The beneficial effects of the above technical scheme are that: in order to build a virtual network, a prototype network is built according to the IP address of a router to be detected, the range of the virtual network is specified, the built virtual network is prevented from being unqualified, virtual links are built according to the connection relation between the router to be detected and connection equipment, the virtual links are sequenced by a preset series of arrangement methods, the mutual influence among different virtual links is reduced to the minimum, each virtual link can execute corresponding work, and then the corresponding virtual network is generated by combining the working parameters of the router to be detected.

Example 8

On the basis of embodiment 7, the method for detecting the performance of the router under the 5G network condition is characterized in that before establishing a prototype network according to the IP address type of the router to be detected, the method includes:

acquiring the IP address of the router to be detected;

acquiring residual equipment connected on the IP address, performing short-time disconnection work on the residual equipment, and simultaneously acquiring a first channel connected with the router to be detected corresponding to the IP address;

and when a sub-channel exists on the first channel, acquiring the interference intensity of the sub-channel, and carrying out interference removal work on the first channel until the sub-channel does not exist on the first channel, and establishing a prototype network according to the IP address and the length of the first channel.

In this example, the remaining devices represent other devices connected on the IP address except the router to be checked;

in this example, the first channel represents a connection channel between the router to be detected and the IP address;

in this example, the sub-channel represents a connection channel of the remaining device with the IP address;

in this example, the interference strength represents the amount of interference that the sub-channel acts on the first channel.

The beneficial effects of the above technical scheme are as follows: in order to plan the related range of the virtual network, firstly, a first channel between the router to be detected and the IP address is obtained, in order to enable the detection result to be more accurate, the influence of sub-channels corresponding to the rest equipment on the IP address on the first channel is eliminated, a prototype network is established according to the length of the first channel, and the basis is taken for subsequently establishing the virtual network.

Example 9

On the basis of the embodiment 1, the method for detecting the performance of the router under the 5G network condition is characterized in that the step 3: receiving corresponding first data based on the detection equipment, establishing a folder with a preset format, and storing a topology file corresponding to the virtual network, further comprising:

respectively collecting login passwords of the router to be detected, judging whether the login passwords are consistent with a preset format folder, if not, adjusting the login passwords to perform format coordination with the preset format folder, and obtaining target login passwords;

performing breakpoint detection on the target login password, and determining that the router to be detected is currently in an abnormal state when a breakpoint exists in the target login password;

acquiring a plurality of hierarchical structures of the first data, marking data nodes in each hierarchical structure, acquiring edge data nodes of each hierarchy, and sequentially connecting the edge data nodes in corresponding hierarchies to acquire data edges of the corresponding hierarchical structures;

establishing a data dynamic model according to the data nodes and the data edges of each hierarchical structure, checking the reliability of the dynamic model by using preset second data, and constructing a data failure model about first data when the reliability of the dynamic model meets preset requirements;

inputting the detection data into the failure model for training, acquiring third data and recording the third data in the folder;

establishing a comparison axis in the folder, inputting the detection data, the first data and the third data to the comparison axis, taking the detection data as a reference, acquiring corresponding data quantities of the first data and the third data under the same axis point, and establishing a data failure list;

analyzing the data failure list, when the first data and the third data fail at the same axial point at the same time, acquiring the position of the axial point, marking the detection data as a failure point, and acquiring the data attribute of the corresponding failure point;

collecting all failure points and corresponding data attributes, matching corresponding virtual links for different data attributes, and generating corresponding topology files;

and analyzing each topology file to judge the fault type of the router to be detected, and transmitting the fault type to the detection equipment for displaying.

In this example, the login password represents the password on which the router to be checked is based when performing network connection;

in this example, the breakpoint represents a point where the target login password is missing;

in this example, the hierarchical structure represents a structure layer in which data included in the first data is located;

in this example, the data node represents the location of the connection point between the two end data on the hierarchy;

in this example, the edge data represents data at the edge position of the hierarchy on the same hierarchy;

in this example, the data dynamic model represents a data distribution model on a corresponding hierarchy in the first data;

in this example, the trustworthiness represents the relevance of the dynamic model to the first data;

in this example, the failure model represents a model of occurrence of data confusion during transmission for the first data;

in this example, the comparison axis represents a two-dimensional coordinate system, where the X axis is used as the data amount, the Y axis marks the detection data, the first data, and the third data, respectively, and the starting points of the detection data, the first data, and the third data are all on the Y axis;

in this example, the failure point represents a point where data is garbled.

The beneficial effects of the above technical scheme are as follows: in order to further detect the performance of the router to be detected, the login password of the router to be detected is collected, the hierarchical structure of the first data is obtained when a breakpoint exists in the login password, the data dynamic model and the failure model are established, failure work is carried out on the detection data, the corresponding third data is obtained, a comparison axis is established in a folder, longitudinal comparison is carried out on the detection data, the first data and the third data, a failure list is established, failure points are marked on the detection data, and therefore the fault type of the router to be detected is judged according to the data attributes of the failure points.

Example 10

On the basis of embodiment 9, the method for detecting router performance under 5G network conditions is characterized by aggregating all failure points and corresponding data attributes, matching corresponding virtual links for different data attributes, and generating corresponding topology files, and includes:

dividing the failure points into a plurality of attribute categories according to the data attributes corresponding to the failure points;

extracting a relevant virtual link in the virtual network according to the attribute type;

and establishing a virtual link corresponding relation according to the position of the failure point on the detection data, and matching in the related virtual link to generate a corresponding topology file.

The beneficial effects of the above technical scheme are that: by classifying the failure points and extracting the relevant virtual links from the virtual network, the corresponding topology file is generated, so that the virtual links corresponding to the failure points can be quickly and accurately acquired, the large-scale search is avoided, and the detection time is saved.

Example 11

On the basis of embodiment 7, the method for detecting router performance under 5G network conditions, after the virtual network is obtained by spatial layout building of the virtual link, includes:

traversing the virtual network by using a preset detection element, judging whether a blocked virtual link exists in the virtual network, if so, extracting the blocked virtual link, and simultaneously, acquiring the load network delay Y of the virtual network ₁ ；

Calculating the link congestion rate of the blocked virtual link in the virtual network according to a formula (I);

wherein λ represents a link congestion rate of the blocked virtual link, b represents an average path width of the blocked virtual link, and n represents a traffic congestion rate of the blocked virtual link ₁ Representing an ideal passing load of said blocked virtual link, n ₂ Representing an actual through load of the blocked virtual link;

when the link congestion rate of the blocked virtual link is higher than a preset congestion rate, determining that the blocked virtual link is unqualified, marking the blocked virtual link in the virtual network and generating first feedback information, and adjusting the path width of the blocked virtual link within an adjustable range;

transmitting a plurality of short-time signals to detection equipment by using the adjusted virtual network, and calculating the total delay amount of the virtual network according to a formula (II);

wherein Y represents the total delay amount of the virtual network, G represents the total amount of the public nodes in the virtual network, f represents the average delay amount of the public nodes in the virtual network, q represents the competition delay amount between the virtual links in the virtual network, and Y represents the total delay amount of the virtual network ₁ Representing the delay of the loading network of the virtual network, d representing the average transmission time of all the short-time signals in the virtual network, j _i Representing the actual transmission speed of the ith short-time signal in the virtual network, d ₁ Representing the effective transmission duration of each short-time signal, d _i Representing the actual transmission duration of the ith short-time signal in the virtual network, if d _i >d ₁ Value d _i Otherwise, the value is d ₁ M represents the number of said short-time signals, d _Y Indicating the short messageA standard transmission duration of a number in the virtual network;

and when the zero load network delay amount of the virtual network is lower than the preset delay amount, generating second feedback information according to the difference value between the total delay amount and the preset delay amount, and adjusting the number of virtual links in the virtual network.

In this example, the detecting element represents a plurality of preset detecting signals containing unit data;

in this example, the first feedback information represents the road width information;

in this example, the second feedback information represents path length information;

in this example, the ideal passing load of the blocked virtual link is related to the path length and the path width of the blocked virtual link itself;

for example, if the average path width of the blocked virtual link is 2, the ideal passing load of the blocked virtual link is 7, and the actual passing load of the blocked virtual link is 4, then λ =1.5;

in this example, the zero load network delay amount of the virtual network represents the network delay when the corresponding virtual network enters the running state from the to-be-run state;

for example, the total number of the public nodes in the virtual network is 10, the average delay amount of the public nodes in the virtual network is 0.35, the contention delay amount between the virtual links in the virtual network is 0.2, the carrier network delay amount of the virtual network is 1.5, the average transmission time length of all the short-time signals in the virtual network is 0.2, the actual transmission speed of the ith short-time signal in the virtual network is 1.2, the effective transmission time length of each short-time signal is 0.15, the actual transmission time length of the ith short-time signal in the virtual network is 0.1, the standard transmission time length of the short-time signal in the virtual network is 1.3, and then Y =5.22.

The beneficial effects of the above technical scheme are as follows: in order to further detect the transmission condition of the virtual network, the data throughput of the virtual network is detected by using the detection element and the preset formula, the corresponding virtual link in the virtual network is correspondingly adjusted according to the calculation result, in order to improve the stability of the virtual network, the zero load network delay of the virtual network is detected by using the short signal and the preset formula, and the path length of the virtual network is adjusted according to the calculation result, so that the stability of the virtual network can be greatly improved, and the virtual network can be ensured to be used under various conditions.

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 (8)

1. A method for detecting the performance of a router under the condition of a 5G network is characterized by comprising the following steps:

step 1: building a virtual network according to the IP address of the router to be detected;

step 2: switching the router to be detected to a 5G state, and transmitting detection data to detection equipment through the virtual network;

and step 3: receiving corresponding first data based on the detection equipment, establishing a folder with a preset format, and storing a topology file corresponding to the virtual network;

and 4, step 4: analyzing the topology file, and judging the performance of the router to be detected in a 5G state;

wherein, the step 3: receiving corresponding first data based on the detection equipment, establishing a folder with a preset format, and storing a topology file corresponding to the virtual network, further comprising:

respectively collecting login passwords of the router to be detected, judging whether the login passwords are consistent with a preset format folder, if not, adjusting the login passwords to perform format coordination with the preset format folder, and obtaining target login passwords;

performing breakpoint detection on the target login password, and determining that the router to be detected is in an abnormal state currently when the target login password has a breakpoint;

acquiring a plurality of hierarchical structures of the first data, marking data nodes in each hierarchical structure, acquiring edge data nodes of each hierarchy, and sequentially connecting the edge data nodes in corresponding hierarchies to acquire edge data of the corresponding hierarchical structures;

the data nodes represent the positions of connection points between the data at two ends on the hierarchical structure;

the edge data represents data positioned at the edge position of the same hierarchy;

establishing a data dynamic model according to the data nodes and the edge data of each hierarchical structure, checking the reliability of the dynamic model by using preset second data, and constructing a data failure model about first data when the reliability of the dynamic model meets preset requirements;

inputting the detection data into the data failure model for training, acquiring third data and recording the third data in the folder;

establishing a comparison axis in the folder, inputting the detection data, the first data and the third data to the comparison axis, taking the detection data as a reference, acquiring data volumes corresponding to the first data and the third data under the same axis point, and establishing a data failure list;

analyzing the data failure list, when the first data and the third data fail at the same axial point at the same time, acquiring the position of the axial point, marking the detected data as a failure point, and acquiring the data attribute corresponding to the failure point;

collecting all failure points and corresponding data attributes, matching corresponding virtual links for different data attributes, and generating corresponding topology files;

analyzing each topology file to judge the fault type of the router to be detected, and transmitting the fault type to the detection equipment for displaying;

collecting all failure points and corresponding data attributes, matching corresponding virtual links for different data attributes, and generating corresponding topology files, including:

dividing the failure points into a plurality of attribute categories according to the data attributes corresponding to the failure points;

extracting a relevant virtual link in the virtual network according to the attribute type;

and establishing a virtual link corresponding relation according to the position of the failure point on the detection data, and matching in the related virtual link to generate a corresponding topology file.

2. The method for detecting the performance of the router under the condition of the 5G network according to claim 1, wherein the step 1: according to the IP address of the router to be detected, the virtual network is established, which comprises the following steps:

constructing a virtual router according to various parameters of the router to be detected, starting the virtual router and collecting working parameters of the virtual router;

the working parameters are collected, the attribute of each working parameter is analyzed, a plurality of working parameter attribute categories are established, corresponding transmission links are matched for each category respectively, and a virtual network is formed.

3. The method for detecting the performance of the router under the condition of the 5G network according to claim 1, wherein the step 2: the router to be detected is switched to the 5G state, and before the detection data is transmitted to the detection equipment through the virtual network, the method comprises the following steps:

and acquiring a first network speed of the router to be detected in a 5G connection state, and executing the step 2 when the first network speed does not accord with a preset network speed.

4. The method for detecting the performance of the router under the condition of the 5G network according to claim 1, wherein the step 3: receiving corresponding first data based on detection equipment, establishing a folder with a preset format, and storing a topology file corresponding to a virtual network, wherein the method comprises the following steps:

naming the corresponding folder;

recording corresponding first data in the folder;

and acquiring the transmission duration of the first data, acquiring a second network speed and storing the second network speed in a topology file corresponding to the virtual network.

5. The method for detecting the performance of the router under the 5G network condition according to claim 4, wherein the step of acquiring the transmission duration of the first data, acquiring the second network speed and storing the second network speed in a topology file of a corresponding virtual network comprises the steps of:

and when the detection equipment does not receive the first data, determining that the router to be detected is in a disconnection state, and displaying on the detection equipment.

6. The method for detecting the performance of the router under the condition of the 5G network according to claim 1, wherein the step 4: analyzing the topology file, and judging the performance of the router to be detected in the 5G state, wherein the method comprises the following steps:

constructing a data type table of the topology file according to the node information of the topology file;

counting various types of data in the data type table;

determining whether the corresponding topology file is qualified or not according to the statistical result, and acquiring unqualified nodes in the corresponding topology file when the topology file is unqualified;

and acquiring unqualified nodes, and transmitting the unqualified nodes to the detection equipment for display.

7. The method for detecting the performance of the router under the condition of the 5G network according to claim 2, wherein the step 1: according to the IP address of the router to be detected, the virtual network is set up, and the method further comprises the following steps:

establishing a prototype network according to the IP address type of the router to be detected, and establishing a plurality of groups of virtual links for the prototype network according to the number of the connecting devices of the router to be detected;

marking a link inflection point according to a cross relation among different virtual links;

analyzing the time slot capacity of each virtual link related to the same link inflection point at the inflection point, sequencing the virtual links according to the time slot capacity, constructing a link specific gravity table, and adjusting a path corresponding to each virtual link on the prototype network based on the link specific gravity table;

wherein, the time slot capacity represents the minimum unit quantity of information transmission of the corresponding virtual link at the inflection point;

establishing all path nodes contained in the adjusted virtual link, respectively establishing corresponding time slot codes for each path node, sequentially copying the time slot codes on a target image consistent with a corresponding network, and drawing a related range enclosure corresponding to each time slot code on the target image based on a frequency slot corresponding to each time slot code;

the time slot codes represent codes corresponding to each path of nodes on the virtual link;

according to the overlapping area between the related range surrounding circles, establishing a public link point, establishing sub-link points which are equal to the total number of virtual links related to the same public link point, connecting the sub-link points with corresponding virtual links, widening the path of the virtual links at the corresponding public link points, and forming a primary network;

allocating flow with corresponding proportion to each virtual link in the primary network according to the corresponding path length and the maximum path width of each virtual link;

meanwhile, establishing a path length-transmission time relation list;

starting the primary network, respectively checking the utilization rate of each virtual link and the transmission time length of each virtual link by using a preset frequency spectrum window function, eliminating the virtual links with the utilization rate of 0 in the primary network, and simultaneously adjusting the road widths of the virtual links with different road lengths according to a road length-transmission time length relation list;

and matching the corresponding virtual link for the working parameters in the primary network, and adjusting the spatial layout of the virtual link to build and obtain the virtual network.

8. The method of claim 7, wherein before establishing the prototype network according to the IP address type of the router to be detected, the method comprises:

acquiring the IP address of the router to be detected;

acquiring residual equipment connected on the IP address, performing short-time disconnection work on the residual equipment, and simultaneously acquiring a first channel connected with the router to be detected corresponding to the IP address;

the first channel represents a connection channel between the router to be detected and the IP address;

when a sub-channel exists on the first channel, acquiring the interference intensity of the sub-channel, and performing interference removal work on the first channel until the sub-channel does not exist on the first channel, and establishing a prototype network according to the IP address and the length of the first channel;

wherein the channel represents a connection channel of the remaining device and the IP address.

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