CN111556481A - Mobile communication node information acquisition system and method based on block chain - Google Patents

Abstract

The invention discloses a mobile communication node information acquisition system and a method based on a block chain, wherein the system comprises a wireless signal link broadcasting module, a communication node equipment configuration information synchronization module, a mobile communication node equipment functionality analysis module, a wireless signal scheduling information integration module and a communication node equipment safety detection module; the wireless signal link broadcasting module is used for sending wireless signals in a communication network to acquire information of different communication node devices, the communication node device configuration information synchronization module is used for acquiring configuration information of the different communication node devices, the mobile communication node device functionality analysis module is used for analyzing functions of the different communication node devices, the wireless signal scheduling information integration module is used for feeding back wireless signal requirements of the opposite-end communication device, and the communication node device safety detection module is used for comprehensively analyzing service duration and performance of the different communication node devices and aiming at feeding back abnormal communication node devices in real time.

Description

Mobile communication node information acquisition system and method based on block chain

Technical Field

The invention relates to the field of communication nodes, in particular to a mobile communication node information acquisition system and method based on a block chain.

Background

In data communications, one physical network node may be a data circuit termination Device (DCE), such as a modem, hub, bridge, or switch; or it may be a Data Terminal Equipment (DTE) such as a digital handset, printer or host (e.g. router, workstation or server).

The network is a LAN or WAN, and each LAN or WAN node (which should be at least a data link layer device) must possess a MAC address, typically one for each network card. Such as computers, packet switches, xDSL modems (with ethernet interfaces), and wireless LAN access points. Note that the hub constitutes one physical network node, but does not constitute a LAN network node. This is because a network connected using a hub is logically a bus network. Similarly, the repeater or PSTN modem (with serial interface) is a physical network node rather than a LAN node.

If the network in question is the Internet or an Intranet, many of the physical network nodes are hosts (i.e., Internet nodes identified by IP addresses). All hosts are physical network nodes. However, some data link layer devices, such as switches, bridges and WLAN access points, do not possess IP host addresses (except sometimes for management purposes), and these devices are not considered Internet nodes or hosts, but are physical network nodes and LAN nodes.

Currently, the current practice is. The communication node equipment in the communication network is directly connected in the communication network to convert and demodulate signals, and the information of the communication node equipment cannot be acquired one by one.

Disclosure of Invention

The invention aims to provide a system and a method for acquiring mobile communication node information based on a block chain, which aim to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a mobile communication node information acquisition system based on a block chain comprises a wireless signal link broadcasting module, a communication node device configuration information synchronization module, a mobile communication node device functionality analysis module, a wireless signal scheduling information integration module and a communication node device safety detection module; the wireless signal scheduling information integration module is respectively connected with the communication node equipment configuration information synchronization module, the mobile communication node equipment functionality analysis module and the communication node equipment safety detection module through an intranet;

the wireless signal link broadcasting module is used for sending wireless signals in a communication network to acquire information of different communication node devices, the communication node device configuration information synchronization module is used for acquiring configuration information of the different communication node devices, the mobile communication node device functionality analysis module is used for analyzing functions of the different communication node devices, the wireless signal scheduling information integration module is used for feeding back wireless signal requirements of the opposite-end communication device, and the communication node device safety detection module is used for comprehensively analyzing service duration and performance of the different communication node devices.

By adopting the technical scheme: the wireless signal link broadcasting module comprises a communication response feedback submodule and a communication node device position information acquisition submodule, wherein the communication response feedback submodule is used for sending a wireless signal to different communication node devices in a communication network, the different communication node devices respond to the wireless signal and feed back device information to a central network, and the communication node device position information acquisition submodule is used for capturing signal sending positions of the different communication node devices when the central network receives the feedback signal and marking the position information of the different communication node devices.

By adopting the technical scheme: the communication node equipment configuration information synchronization module comprises different communication node equipment carried address mark sub-modules and different communication node equipment identification information statistics sub-modules, wherein the different communication node equipment carried address mark sub-modules are used for acquiring IP addresses of different communication node equipment and classifying the IP addresses of the different equipment, and the different communication node equipment identification information statistics sub-modules are used for acquiring identification information of the different communication node equipment, determining the types of the different communication node equipment, matching the types and the IP addresses of the different communication node equipment, making a list and sending the list to the mobile communication node equipment functionality analysis module.

By adopting the technical scheme: the mobile communication node equipment functionality analysis module comprises different communication node equipment function backup submodules and a same function communication node equipment occupation ratio analysis submodule, wherein the different communication node equipment function backup submodules are used for acquiring the types of different communication node equipment detected by the communication node equipment configuration information synchronization module, determining the functions of the different equipment according to the types of the different communication node equipment, dividing the functions of the different equipment, the same function communication node equipment occupation ratio analysis submodule is used for counting the different communication node equipment with the same function, and analyzing the type of a wireless signal received by the current opposite-end communication equipment according to the different communication node equipment occupation ratios with the same function.

By adopting the technical scheme: the mobile communication node equipment functionality analysis module obtains the total number of communication node equipment in the current communication network, sets the total number of the communication nodes to be Z0, and sets the currently detected communication node equipment to be Z0₁、Z₂、Z₃、…、Z_n-1、Z_nExtracting the communication node equipment currently realizing the same function, setting the number of the communication node equipment currently realizing the same function as C0, detecting the running time and the equipment downtime of the communication node equipment currently realizing the same function, and setting the running time of the current equipment as T₁、T₂、T₃、…、T_n-1、T_nSetting the current equipment down time to T0₁、T0₂、T0₃、…、T0_n-1、T0_nSetting the current equipment operation rate as K according to a formula:

calculating to obtain the operation rate of the communication node equipment which realizes the same function at present, marking the current equipment when the operation rate of the communication node equipment which realizes the same function is lower than a set threshold, determining that the operation rate of the current equipment is too low to adjust sufficient signals, setting the number of the communication node equipment which realizes the same function at present, which is lower than the set threshold, as Ci, setting the occupation rate of the communication node equipment which realizes the same function as L, and according to a formula:

and calculating the occupation ratio of the communication node equipment currently realizing the same function, calculating the occupation ratios of the node communication equipment with different functions one by one, sequencing the occupation ratios, making a sequencing result into a list and sending the list to the communication node equipment configuration information synchronization module and the wireless signal scheduling information integration module.

By adopting the technical scheme: the wireless signal scheduling information integration module comprises a butt joint communication equipment signal receiving requirement feedback submodule, a different communication node equipment service time counting submodule and a manual feedback platform, wherein the butt joint communication equipment signal receiving requirement feedback submodule is used for receiving signals of butt joint equipment connected with a current communication network, decoding the signal formats, confirming the formats of the signals received by the different butt joint equipment, adjusting the positions of the butt joint equipment connected with the communication node equipment, and the different communication node equipment service time counting submodule is used for counting the service time of communication node equipment accessed to the communication network and recording the service time.

By adopting the technical scheme: and the service time length of the communication node equipment monitored by the different communication node equipment service time length counting submodule is greater than a set threshold value, the current communication node equipment is marked after being extracted, and the marked data is sent to the manual feedback platform in real time for feedback.

By adopting the technical scheme: the communication node equipment safety monitoring module comprises a communication node equipment performance real-time monitoring submodule and a communication node equipment safety level analysis submodule, wherein the communication node equipment performance real-time monitoring submodule is used for monitoring and analyzing the real-time performance of communication node equipment connected in a communication network, and the communication node equipment safety level analysis submodule is used for obtaining the service duration of the communication node equipment counted by the different communication node equipment service duration counting submodule and carrying out level division on the real-time performance.

A mobile communication node information acquisition method based on block chains comprises the following steps:

s1: the wireless signal link broadcasting module is used for sending wireless signals in a communication network to obtain information of different communication node devices, a communication response feedback sub-module sends the wireless signals to the different communication node devices in the communication network, the different communication node devices respond to the wireless signals and feed back device information to a central network, and a communication node device position information obtaining sub-module captures signal sending positions of the different communication node devices when the central network receives the feedback signals and marks the position information of the different communication node devices;

s2: the method comprises the steps that a communication node device configuration information synchronization module is used for obtaining configuration information of different communication node devices, the different communication node devices carry address mark sub-modules to obtain IP addresses of the different communication node devices, the IP addresses of the different devices are classified, different communication node device identification information statistics sub-modules obtain identification information of the different communication node devices, the types of the different communication node devices are determined, the types and the IP addresses of the different communication node devices are matched, a list is made, and the list is sent to a mobile communication node device functionality analysis module;

s3: the method comprises the steps that functions of different communication node devices are analyzed by a mobile communication node device functionality analysis module, different communication node device function backup sub-modules acquire the types of the different communication node devices detected by a communication node device configuration information synchronization module, the functions of the different devices are determined according to the types of the different communication node devices, the functions of the different devices are divided, a same-function communication node device occupation ratio analysis sub-module counts the different communication node devices with the same function, and the types of wireless signals received by the current opposite-end communication device are analyzed according to the occupation ratios of the different communication node devices with the same function;

s4: the wireless signal scheduling information integration module is used for feeding back the wireless signal requirement of the opposite-end communication equipment, the butt joint communication equipment signal receiving requirement feedback submodule is used for receiving the signal of the butt joint equipment connected with the current communication network, decoding the signal format, confirming the format of the signal received by different butt joint equipment and adjusting the position of the communication node equipment connected with the butt joint equipment, the different communication node equipment service duration counting submodule is used for counting the service duration of the communication node equipment accessed to the communication network and recording the service duration, the communication node equipment service duration monitored by the different communication node equipment service duration counting submodule is larger than a set threshold value, the current communication node equipment is marked after being extracted, and the marked data are sent to the manual feedback platform in real time for feedback;

s5: the communication node equipment safety detection module is used for comprehensively analyzing the service duration and the performance of different communication node equipment, the communication node equipment performance real-time monitoring submodule is used for monitoring and analyzing the real-time performance of the communication node equipment connected in the communication network, and the communication node equipment safety grade analysis submodule acquires the service duration and the real-time performance of the communication node equipment counted by the different communication node equipment service duration counting submodule to carry out grade division.

By adopting the technical scheme: the step S5 is to use the communication node device security detection module to perform comprehensive analysis on the service duration and performance of different communication node devices, the communication node device performance real-time monitoring submodule performs monitoring analysis on the real-time performance index rate of the communication node device connected to the communication network, and the communication node device security level analysis submodule obtains the service duration and real-time performance of the communication node device counted by the different communication node device service duration counting submodule to perform level division, and further includes the following steps:

setting the service time of the communication node equipment safety detection module for monitoring different communication node equipment as t₁、t₂、t₃、…、t_n-1、t_nSetting the service duration of the current communication node equipment A as t_nThe communication node equipment performance real-time monitoring submodule is used for monitoring the communication node equipment AThe performance index rate of R is analyzed in real time as₁、R₂、R₃、…、R_n-1、R_nSetting the signal interference rate of the current communication network as U%, setting the actual comprehensive performance index rate of the communication node equipment A as RO, and according to a formula:

if the performance index rate of the communication node equipment A does not meet the formula, the performance index rate of the communication node equipment A is analyzed again until the formula is met;

when the performance index rate of the communication node equipment A meets the formula, analyzing the actual comprehensive performance index rate of the communication node equipment A, and when the actual comprehensive performance index rate is more than or equal to 60%, judging that the current communication node equipment A is normal and not processing the current communication node equipment A;

when the actual comprehensive performance index rate is less than 60% and greater than or equal to 40%, extracting the service duration of the current communication node equipment A as t_nWhen t is_nLess than or equal to 30000h, judging that the current communication node equipment A is normal, and when t is_nIf the time is more than 30000h, judging that the current communication node equipment A is abnormal, and sending the actual comprehensive performance index rate and the service duration of the current communication node equipment A to a manual feedback platform for feedback;

and when the actual comprehensive performance index rate is less than 40%, judging that the current communication node equipment A is abnormal, and sending the actual comprehensive performance index rate of the current communication node equipment A to the manual feedback platform for feedback.

Compared with the prior art, the invention has the beneficial effects that: the invention aims to comprehensively integrate information of communication node equipment, carry out full-coverage monitoring on different node equipment, integrate and analyze the comprehensive performance and service duration of the node equipment and feed back abnormal communication node equipment in real time;

the system comprises a wireless signal link broadcasting module, a communication node device configuration information synchronization module, a mobile communication node device functionality analysis module, a wireless signal scheduling information integration module and a communication node device safety detection module, wherein the wireless signal link broadcasting module is used for sending wireless signals in a communication network to acquire information of different communication node devices, the communication node device configuration information synchronization module is used for acquiring configuration information of the different communication node devices, the mobile communication node device functionality analysis module is used for analyzing functions of the different communication node devices, the wireless signal scheduling information integration module is used for feeding back wireless signal requirements of opposite-end communication devices, and the communication node device safety detection module is used for comprehensively analyzing service duration and performance.

Drawings

In order that the present invention may be more readily and clearly understood, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

Fig. 1 is a schematic block diagram of a mobile communication node information acquisition system according to the present invention;

fig. 2 is a schematic diagram illustrating specific steps of a method for acquiring mobile communication node information based on a block chain according to the present invention;

fig. 3 is a schematic diagram illustrating an implementation method of a block chain-based mobile communication node information acquisition method according to the present invention;

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 3, in an embodiment of the present invention, a system and a method for acquiring mobile communication node information based on a block chain include a wireless signal link broadcasting module, a communication node device configuration information synchronization module, a mobile communication node device functionality analysis module, a wireless signal scheduling information integration module, and a communication node device security detection module; the wireless signal scheduling information integration module is respectively connected with the communication node equipment configuration information synchronization module, the mobile communication node equipment functionality analysis module and the communication node equipment safety detection module through an intranet;

the wireless signal link broadcasting module is used for sending wireless signals in a communication network to acquire information of different communication node devices, the communication node device configuration information synchronization module is used for acquiring configuration information of the different communication node devices, the mobile communication node device functionality analysis module is used for analyzing functions of the different communication node devices, the wireless signal scheduling information integration module is used for feeding back wireless signal requirements of the opposite-end communication device, and the communication node device safety detection module is used for comprehensively analyzing service duration and performance of the different communication node devices.

By adopting the technical scheme: the wireless signal link broadcasting module comprises a communication response feedback submodule and a communication node device position information acquisition submodule, wherein the communication response feedback submodule is used for sending a wireless signal to different communication node devices in a communication network, the different communication node devices respond to the wireless signal and feed back device information to a central network, and the communication node device position information acquisition submodule is used for capturing signal sending positions of the different communication node devices when the central network receives the feedback signal and marking the position information of the different communication node devices.

By adopting the technical scheme: the communication node equipment configuration information synchronization module comprises different communication node equipment carried address mark sub-modules and different communication node equipment identification information statistics sub-modules, wherein the different communication node equipment carried address mark sub-modules are used for acquiring IP addresses of different communication node equipment and classifying the IP addresses of the different equipment, and the different communication node equipment identification information statistics sub-modules are used for acquiring identification information of the different communication node equipment, determining the types of the different communication node equipment, matching the types and the IP addresses of the different communication node equipment, making a list and sending the list to the mobile communication node equipment functionality analysis module.

By adopting the technical scheme: the mobile communication node equipment functionality analysis module comprises different communication node equipment function backup submodules and a same function communication node equipment occupation ratio analysis submodule, wherein the different communication node equipment function backup submodules are used for acquiring the types of different communication node equipment detected by the communication node equipment configuration information synchronization module, determining the functions of the different equipment according to the types of the different communication node equipment, dividing the functions of the different equipment, the same function communication node equipment occupation ratio analysis submodule is used for counting the different communication node equipment with the same function, and analyzing the type of a wireless signal received by the current opposite-end communication equipment according to the different communication node equipment occupation ratios with the same function.

By adopting the technical scheme: the mobile communication node equipment functionality analysis module obtains the total number of communication node equipment in the current communication network, sets the total number of the communication nodes to be Z0, and sets the currently detected communication node equipment to be Z0₁、Z₂、Z₃、…、Z_n-1、Z_nExtracting the communication node equipment currently realizing the same function, setting the number of the communication node equipment currently realizing the same function as C0, detecting the running time and the equipment downtime of the communication node equipment currently realizing the same function, and setting the running time of the current equipment as T₁、T₂、T₃、…、T_n-1、T_nSetting the current equipment down time to T0₁、T0₂、T0₃、…、T0_n-1、T0_nSetting the current equipment operation rate as K according to a formula:

calculating to obtain the operation rate of the communication node equipment which realizes the same function at present, marking the current equipment when the operation rate of the communication node equipment which realizes the same function is lower than a set threshold, determining that the operation rate of the current equipment is too low to adjust sufficient signals, setting the number of the communication node equipment which realizes the same function at present, which is lower than the set threshold, as Ci, setting the occupation rate of the communication node equipment which realizes the same function as L, and according to a formula:

and calculating the occupation ratio of the communication node equipment currently realizing the same function, calculating the occupation ratios of the node communication equipment with different functions one by one, sequencing the occupation ratios, making a sequencing result into a list and sending the list to the communication node equipment configuration information synchronization module and the wireless signal scheduling information integration module.

By adopting the technical scheme: the wireless signal scheduling information integration module comprises a butt joint communication equipment signal receiving requirement feedback submodule, a different communication node equipment service time counting submodule and a manual feedback platform, wherein the butt joint communication equipment signal receiving requirement feedback submodule is used for receiving signals of butt joint equipment connected with a current communication network, decoding the signal formats, confirming the formats of the signals received by the different butt joint equipment, adjusting the positions of the butt joint equipment connected with the communication node equipment, and the different communication node equipment service time counting submodule is used for counting the service time of communication node equipment accessed to the communication network and recording the service time.

By adopting the technical scheme: and the service time length of the communication node equipment monitored by the different communication node equipment service time length counting submodule is greater than a set threshold value, the current communication node equipment is marked after being extracted, and the marked data is sent to the manual feedback platform in real time for feedback.

By adopting the technical scheme: the communication node equipment safety monitoring module comprises a communication node equipment performance real-time monitoring submodule and a communication node equipment safety level analysis submodule, wherein the communication node equipment performance real-time monitoring submodule is used for monitoring and analyzing the real-time performance of communication node equipment connected in a communication network, and the communication node equipment safety level analysis submodule is used for obtaining the service duration of the communication node equipment counted by the different communication node equipment service duration counting submodule and carrying out level division on the real-time performance.

A mobile communication node information acquisition method based on block chains comprises the following steps:

s1: the wireless signal link broadcasting module is used for sending wireless signals in a communication network to obtain information of different communication node devices, a communication response feedback sub-module sends the wireless signals to the different communication node devices in the communication network, the different communication node devices respond to the wireless signals and feed back device information to a central network, and a communication node device position information obtaining sub-module captures signal sending positions of the different communication node devices when the central network receives the feedback signals and marks the position information of the different communication node devices;

s2: the method comprises the steps that a communication node device configuration information synchronization module is used for obtaining configuration information of different communication node devices, the different communication node devices carry address mark sub-modules to obtain IP addresses of the different communication node devices, the IP addresses of the different devices are classified, different communication node device identification information statistics sub-modules obtain identification information of the different communication node devices, the types of the different communication node devices are determined, the types and the IP addresses of the different communication node devices are matched, a list is made, and the list is sent to a mobile communication node device functionality analysis module;

s3: the method comprises the steps that functions of different communication node devices are analyzed by a mobile communication node device functionality analysis module, different communication node device function backup sub-modules acquire the types of the different communication node devices detected by a communication node device configuration information synchronization module, the functions of the different devices are determined according to the types of the different communication node devices, the functions of the different devices are divided, a same-function communication node device occupation ratio analysis sub-module counts the different communication node devices with the same function, and the types of wireless signals received by the current opposite-end communication device are analyzed according to the occupation ratios of the different communication node devices with the same function;

s4: the wireless signal scheduling information integration module is used for feeding back the wireless signal requirement of the opposite-end communication equipment, the butt joint communication equipment signal receiving requirement feedback submodule is used for receiving the signal of the butt joint equipment connected with the current communication network, decoding the signal format, confirming the format of the signal received by different butt joint equipment and adjusting the position of the communication node equipment connected with the butt joint equipment, the different communication node equipment service duration counting submodule is used for counting the service duration of the communication node equipment accessed to the communication network and recording the service duration, the communication node equipment service duration monitored by the different communication node equipment service duration counting submodule is larger than a set threshold value, the current communication node equipment is marked after being extracted, and the marked data are sent to the manual feedback platform in real time for feedback;

s5: the communication node equipment safety detection module is used for comprehensively analyzing the service duration and the performance of different communication node equipment, the communication node equipment performance real-time monitoring submodule is used for monitoring and analyzing the real-time performance of the communication node equipment connected in the communication network, and the communication node equipment safety grade analysis submodule acquires the service duration and the real-time performance of the communication node equipment counted by the different communication node equipment service duration counting submodule to carry out grade division.

By adopting the technical scheme: the step S5 is to use the communication node device security detection module to perform comprehensive analysis on the service duration and performance of different communication node devices, the communication node device performance real-time monitoring submodule performs monitoring analysis on the real-time performance index rate of the communication node device connected to the communication network, and the communication node device security level analysis submodule obtains the service duration and real-time performance of the communication node device counted by the different communication node device service duration counting submodule to perform level division, and further includes the following steps:

setting the service time of the communication node equipment safety detection module for monitoring different communication node equipment as t₁、t₂、t₃、…、t_n-1、t_nSetting the service duration of the current communication node equipment A as t_nThe sub-module for monitoring the performance of the communication node equipment analyzes the performance index rate of the communication node equipment A into R in real time₁、R₂、R₃、…、R_n-1、R_nSetting the signal interference rate of the current communication network as U%, setting the actual comprehensive performance index rate of the communication node equipment A as RO, and according to a formula:

if the performance index rate of the communication node equipment A does not meet the formula, the performance index rate of the communication node equipment A is analyzed again until the formula is met;

when the performance index rate of the communication node equipment A meets the formula, analyzing the actual comprehensive performance index rate of the communication node equipment A, and when the actual comprehensive performance index rate is more than or equal to 60%, judging that the current communication node equipment A is normal and not processing the current communication node equipment A;

when the actual comprehensive performance index rate is less than 60% and greater than or equal to 40%, extracting the service duration of the current communication node equipment A as t_nWhen t is_nLess than or equal to 30000h, judging that the current communication node equipment A is normal, and when t is_nIf the time is more than 30000h, judging that the current communication node equipment A is abnormal, and sending the actual comprehensive performance index rate and the service duration of the current communication node equipment A to a manual feedback platform for feedback;

and when the actual comprehensive performance index rate is less than 40%, judging that the current communication node equipment A is abnormal, and sending the actual comprehensive performance index rate of the current communication node equipment A to the manual feedback platform for feedback.

Example 1: and limiting conditions, wherein the mobile communication node equipment functionality analysis module acquires the total number of communication node equipment in the current communication network, sets the total number of communication nodes to be 6, and sets the currently detected communication node equipment to be Z₁、Z₂、Z₃、…、Z_n-1、Z_nExtracting the communication node equipment currently realizing the same function, setting the number of the communication node equipment currently realizing the same function to be 3, detecting the running time and the equipment downtime of the communication node equipment currently realizing the same function, setting the running time of the current equipment to be 2300h, 512h and 4712h, setting the downtime of the current equipment to be 12h, 4528h and 464h, setting the running rate of the current equipment to be K, and according to a formula:

calculating the operation rate of the communication node equipment which realizes the same function at present, when the operation rate of the communication node equipment which realizes the same function is lower than a set threshold value of 30%, wherein 10.1% < 30%, marking the current equipment, determining that the operation rate of the current equipment is too low and cannot adjust enough signals, setting the number of the operation rates of the communication node equipment which realizes the same function at present lower than the set threshold value to be 1, setting the occupation rate of the communication node equipment which realizes the same function to be L, and according to a formula:

and calculating to obtain the occupation ratio of the communication node equipment currently realizing the same function by 33.3%, calculating the occupation ratios of the node communication equipment with different functions one by one, sequencing the occupation ratios, making a sequencing result into a list and sending the list to the communication node equipment configuration information synchronization module and the wireless signal scheduling information integration module.

Example 2: limiting conditions, and setting the service time of the communication node equipment safety detection module for monitoring different communication node equipment as t₁、t₂、t₃、…、t_n-1、t_nSetting the service duration of the current communication node device a to be 15678h, setting the real-time performance monitoring submodule of the communication node device to analyze the performance index rate of the communication node device a in real time to be 71%, 72%, 74% and 70%, setting the signal interference rate of the current communication network to be 7%, setting the actual comprehensive performance index rate of the communication node device a to be RO, according to the formula:

wherein, 74% -70% < 4% < 5%, satisfy above-mentioned formula, carry out the analysis to communication node equipment A actual comprehensive properties index rate:

calculating to obtain the actual comprehensive performance index rate of 77.2 percent, wherein the actual comprehensive performance index rate is more than 60 percent, judging that the current communication node equipment A is normal and not processing;

example 3: limiting conditions, and setting the service time of the communication node equipment safety detection module for monitoring different communication node equipment as t₁、t₂、t₃、…、t_n-1、t_nSetting the service duration of the current communication node device a to be 12886h, setting the real-time performance monitoring submodule of the communication node device to analyze the performance index rate of the communication node device a in real time to be 52%, 57%, 55% and 54%, setting the signal interference rate of the current communication network to be 5%, setting the actual comprehensive performance index rate of the communication node device a to be RO, according to the formula:

wherein, 57% -52% ═ 5%, satisfy the above-mentioned formula, carry out the analysis to communication node equipment a actual comprehensive properties index rate:

when the actual comprehensive performance index rate is 57.4%, is less than 60% and is greater than or equal to 40%, extracting the service duration of the current communication node equipment a to be 12886h, and when the 12886h is less than or equal to 30000h, judging that the current communication node equipment a is normal.

Example 4: limiting conditions, and setting the service time of the communication node equipment safety detection module for monitoring different communication node equipment as t₁、t₂、t₃、…、t_n-1、t_nSetting the service duration of the current communication node equipment A to be 14588h, analyzing the performance index rate of the communication node equipment A to be 37%, 35%, 39% and 34% in real time by the communication node equipment performance real-time monitoring submodule, and setting the signal interference rate of the current communication network to be 37%, 35%, 39% and 34%3%, setting the actual comprehensive performance index rate of the communication node equipment A as RO, according to the formula:

wherein, 39% -34% ═ 5%, satisfy the above-mentioned formula, carry out the analysis to communication node equipment a actual comprehensive properties index rate:

the actual comprehensive performance index rate is 37.4% and is less than 40%, the current communication node equipment A is judged to be abnormal, and the actual comprehensive performance index rate of the current communication node equipment A is sent to the manual feedback platform for feedback.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A mobile communication node information acquisition system based on a block chain is characterized in that: the system comprises a wireless signal link broadcasting module, a communication node device configuration information synchronization module, a mobile communication node device functionality analysis module, a wireless signal scheduling information integration module and a communication node device safety detection module; the wireless signal scheduling information integration module is respectively connected with the communication node equipment configuration information synchronization module, the mobile communication node equipment functionality analysis module and the communication node equipment safety detection module through an intranet;

the wireless signal link broadcasting module is used for sending wireless signals in a communication network to acquire information of different communication node devices, the communication node device configuration information synchronization module is used for acquiring configuration information of the different communication node devices, the mobile communication node device functionality analysis module is used for analyzing functions of the different communication node devices, the wireless signal scheduling information integration module is used for feeding back wireless signal requirements of the opposite-end communication device, and the communication node device safety detection module is used for comprehensively analyzing service duration and performance of the different communication node devices.

2. The system according to claim 1, wherein the mobile communication node comprises: the wireless signal link broadcasting module comprises a communication response feedback submodule and a communication node device position information acquisition submodule, wherein the communication response feedback submodule is used for sending a wireless signal to different communication node devices in a communication network, the different communication node devices respond to the wireless signal and feed back device information to a central network, and the communication node device position information acquisition submodule is used for capturing signal sending positions of the different communication node devices when the central network receives the feedback signal and marking the position information of the different communication node devices.

3. The system according to claim 1, wherein the mobile communication node comprises: the communication node equipment configuration information synchronization module comprises different communication node equipment carried address mark sub-modules and different communication node equipment identification information statistics sub-modules, wherein the different communication node equipment carried address mark sub-modules are used for acquiring IP addresses of different communication node equipment and classifying the IP addresses of the different equipment, and the different communication node equipment identification information statistics sub-modules are used for acquiring identification information of the different communication node equipment, determining the types of the different communication node equipment, matching the types and the IP addresses of the different communication node equipment, making a list and sending the list to the mobile communication node equipment functionality analysis module.

4. The system according to claim 1, wherein the mobile communication node comprises: the mobile communication node equipment functionality analysis module comprises different communication node equipment function backup submodules and a same function communication node equipment occupation ratio analysis submodule, wherein the different communication node equipment function backup submodules are used for acquiring the types of different communication node equipment detected by the communication node equipment configuration information synchronization module, determining the functions of the different equipment according to the types of the different communication node equipment, dividing the functions of the different equipment, the same function communication node equipment occupation ratio analysis submodule is used for counting the different communication node equipment with the same function, and analyzing the type of a wireless signal received by the current opposite-end communication equipment according to the different communication node equipment occupation ratios with the same function.

5. The system according to claim 4, wherein the mobile communication node comprises: the mobile communication node equipment functionality analysis module obtains the total number of communication node equipment in the current communication network, sets the total number of the communication nodes to be Z0, and sets the currently detected communication node equipment to be Z0₁、Z₂、Z₃、…、Z_n-1、Z_nExtracting the communication node equipment currently realizing the same function, setting the number of the communication node equipment currently realizing the same function as C0, detecting the running time and the equipment downtime of the communication node equipment currently realizing the same function, and setting the running time of the current equipment as T₁、T₂、T₃、…、T_n-1、T_nSetting the current equipment down time to T0₁、T0₂、T0₃、…、T0_n-1、T0_nSetting the current equipment operation rate as K according to a formula:

calculating to obtain the operation rate of the communication node equipment which realizes the same function at present, marking the current equipment when the operation rate of the communication node equipment which realizes the same function is lower than a set threshold, determining that the operation rate of the current equipment is too low to adjust sufficient signals, setting the number of the communication node equipment which realizes the same function at present, which is lower than the set threshold, as Ci, setting the occupation rate of the communication node equipment which realizes the same function as L, and according to a formula:

and calculating the occupation ratio of the communication node equipment currently realizing the same function, calculating the occupation ratios of the node communication equipment with different functions one by one, sequencing the occupation ratios, making a sequencing result into a list and sending the list to the communication node equipment configuration information synchronization module and the wireless signal scheduling information integration module.

6. The system according to claim 1, wherein the mobile communication node comprises: the wireless signal scheduling information integration module comprises a butt joint communication equipment signal receiving requirement feedback submodule, a different communication node equipment service time counting submodule and a manual feedback platform, wherein the butt joint communication equipment signal receiving requirement feedback submodule is used for receiving signals of butt joint equipment connected with a current communication network, decoding the signal formats, confirming the formats of the signals received by the different butt joint equipment, adjusting the positions of the butt joint equipment connected with the communication node equipment, and the different communication node equipment service time counting submodule is used for counting the service time of communication node equipment accessed to the communication network and recording the service time.

7. The system according to claim 6, wherein the mobile communication node comprises: and the service time length of the communication node equipment monitored by the different communication node equipment service time length counting submodule is greater than a set threshold value, the current communication node equipment is marked after being extracted, and the marked data is sent to the manual feedback platform in real time for feedback.

8. The system according to claim 6, wherein the mobile communication node comprises: the communication node equipment safety monitoring module comprises a communication node equipment performance real-time monitoring submodule and a communication node equipment safety level analysis submodule, wherein the communication node equipment performance real-time monitoring submodule is used for monitoring and analyzing the real-time performance of communication node equipment connected in a communication network, and the communication node equipment safety level analysis submodule is used for obtaining the service duration of the communication node equipment counted by the different communication node equipment service duration counting submodule and carrying out level division on the real-time performance.

9. A mobile communication node information acquisition method based on block chains is characterized in that:

s1: the wireless signal link broadcasting module is used for sending wireless signals in a communication network to obtain information of different communication node devices, a communication response feedback sub-module sends the wireless signals to the different communication node devices in the communication network, the different communication node devices respond to the wireless signals and feed back device information to a central network, and a communication node device position information obtaining sub-module captures signal sending positions of the different communication node devices when the central network receives the feedback signals and marks the position information of the different communication node devices;

s2: the method comprises the steps that a communication node device configuration information synchronization module is used for obtaining configuration information of different communication node devices, the different communication node devices carry address mark sub-modules to obtain IP addresses of the different communication node devices, the IP addresses of the different devices are classified, different communication node device identification information statistics sub-modules obtain identification information of the different communication node devices, the types of the different communication node devices are determined, the types and the IP addresses of the different communication node devices are matched, a list is made, and the list is sent to a mobile communication node device functionality analysis module;

s3: the method comprises the steps that functions of different communication node devices are analyzed by a mobile communication node device functionality analysis module, different communication node device function backup sub-modules acquire the types of the different communication node devices detected by a communication node device configuration information synchronization module, the functions of the different devices are determined according to the types of the different communication node devices, the functions of the different devices are divided, a same-function communication node device occupation ratio analysis sub-module counts the different communication node devices with the same function, and the types of wireless signals received by the current opposite-end communication device are analyzed according to the occupation ratios of the different communication node devices with the same function;

s4: the wireless signal scheduling information integration module is used for feeding back the wireless signal requirement of the opposite-end communication equipment, the butt joint communication equipment signal receiving requirement feedback submodule is used for receiving the signal of the butt joint equipment connected with the current communication network, decoding the signal format, confirming the format of the signal received by different butt joint equipment and adjusting the position of the communication node equipment connected with the butt joint equipment, the different communication node equipment service duration counting submodule is used for counting the service duration of the communication node equipment accessed to the communication network and recording the service duration, the communication node equipment service duration monitored by the different communication node equipment service duration counting submodule is larger than a set threshold value, the current communication node equipment is marked after being extracted, and the marked data are sent to the manual feedback platform in real time for feedback;

s5: the communication node equipment safety detection module is used for comprehensively analyzing the service duration and the performance of different communication node equipment, the communication node equipment performance real-time monitoring submodule is used for monitoring and analyzing the real-time performance of the communication node equipment connected in the communication network, and the communication node equipment safety grade analysis submodule acquires the service duration and the real-time performance of the communication node equipment counted by the different communication node equipment service duration counting submodule to carry out grade division.

10. The method of claim 9, wherein the method comprises: the step S5 is to use the communication node device security detection module to perform comprehensive analysis on the service duration and performance of different communication node devices, the communication node device performance real-time monitoring submodule performs monitoring analysis on the real-time performance index rate of the communication node device connected to the communication network, and the communication node device security level analysis submodule obtains the service duration and real-time performance of the communication node device counted by the different communication node device service duration counting submodule to perform level division, and further includes the following steps:

setting the service time of the communication node equipment safety detection module for monitoring different communication node equipment as t₁、t₂、t₃、…、t_n-1、t_nSetting the service duration of the current communication node equipment A as t_nThe sub-module for monitoring the performance of the communication node equipment analyzes the performance index rate of the communication node equipment A into R in real time₁、R₂、R₃、…、R_n-1、R_nSetting the signal interference rate of the current communication network as U%, setting the actual comprehensive performance index rate of the communication node equipment A as RO, and according to a formula:

if the performance index rate of the communication node equipment A does not meet the formula, the performance index rate of the communication node equipment A is analyzed again until the formula is met;

when the performance index rate of the communication node equipment A meets the formula, analyzing the actual comprehensive performance index rate of the communication node equipment A, and when the actual comprehensive performance index rate is more than or equal to 60%, judging that the current communication node equipment A is normal and not processing the current communication node equipment A;

when the actual comprehensive performance index rate is less than 60% and greater than or equal to 40%, extracting the service duration of the current communication node equipment A as t_nWhen t is_nLess than or equal to 30000h, judging that the current communication node equipment A is normal, and when t is_nIf the current communication node equipment A is abnormal, the current communication node is judged to be abnormalThe actual comprehensive performance index rate and the service duration of the equipment A are sent to a manual feedback platform for feedback;

and when the actual comprehensive performance index rate is less than 40%, judging that the current communication node equipment A is abnormal, and sending the actual comprehensive performance index rate of the current communication node equipment A to the manual feedback platform for feedback.

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