CN112910585B - Resource allocation system based on mobile communication network - Google Patents

Abstract

The invention discloses a resource allocation system based on a mobile communication network, which comprises an external communication equipment signal intensity comparison module, an external communication equipment security analysis module, an external communication equipment co-frequency interference analysis module, a data real-time summarizing module and a communication network resource allocation module, wherein the external communication equipment signal intensity comparison module is used for monitoring and counting the signal intensities of different external communication equipment, the external communication equipment security analysis module is used for analyzing and counting the security of different external communication equipment, the external communication equipment co-frequency interference analysis module is used for monitoring the channel interference of the external communication equipment, the data real-time summarizing module is used for acquiring and summarizing statistical data, and the communication network resource allocation module is used for performing resource allocation according to the statistical data after analyzing according to the statistical data, aiming at analyzing different indexes of the external equipment and intelligently allocating communication network resources.

Description

Resource allocation system based on mobile communication network

Technical Field

The invention relates to the field of mobile communication, in particular to a resource allocation system based on a mobile communication network.

Background

Mobile communication is a communication mode for communicating between a mobile user and a fixed-point user or between mobile users, and two communication parties have one party or two parties in motion. Including land, sea, and air mobile communications. The frequency bands used are spread over low, medium, high, very high and very high frequencies. The mobile communication system is composed of mobile station, base station and mobile exchange. If it is desired to communicate with a mobile station, the mobile exchange sends a call to the whole network through each base station, the called station sends an answer signal after receiving the answer, the mobile exchange distributes a channel to the mobile station after receiving the answer and transmits a signaling to make it ring from the channel.

The mobile communication network refers to a communication medium for realizing communication between a mobile user and a fixed-point user or between mobile users, and has a certain speciality, and related knowledge of the mobile communication network is described below. The mobile communication network is an important branch of the communication network, and is popular with users due to the characteristics of mobility, freedom, no time and place limitation and the like of wireless communication. In the modern communication field, the device is one of three important communication means parallel to satellite communication and optical communication.

Current mobile communication networks can be classified into two-way conversational cellular public mobile communication, one-way or two-way conversational private mobile communication, one-way reception radio paging, home cordless phones, wireless local subscriber loops, and the like, according to the coverage area and operation mode of the system. The private mobile communication network is an independent mobile communication system and can be incorporated into a public network. A representative private network, a Trunking System (Trunking System). This is an effective way to increase spectrum utilization in addition to cellular networks. So-called "clustering", in the communication sense, is to automatically allocate limited communication resources (channels) to a large number of users for common use. Such high efficiency nets have become very popular in recent years. Of course, as public network technology develops, it will automatically be incorporated into private networks.

At present, the distribution of resources in a communication network is average, different external devices acquire the same communication network resources, but the performances of the different external devices are inconsistent and the network demand degree is inconsistent, and the method aims to analyze different indexes of the external devices and intelligently distribute the communication network resources.

Disclosure of Invention

The present invention is directed to a resource allocation system and method based on a mobile communication network, so as to solve the problems in the prior art.

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

a resource allocation system based on a mobile communication network comprises an external communication equipment signal intensity comparison module, an external communication equipment security analysis module, an external communication equipment co-frequency interference analysis module, a data real-time summarizing module and a communication network resource allocation module, wherein the external communication equipment signal intensity comparison module, the external communication equipment security analysis module, the external communication equipment co-frequency interference analysis module and the communication network resource allocation module are respectively connected with the data real-time summarizing module through an intranet;

the external communication equipment signal intensity comparison module is used for monitoring and counting the signal intensities of different external communication equipment, the external communication equipment safety analysis module is used for analyzing and counting the safety of different external communication equipment, the external communication equipment same frequency interference analysis module is used for monitoring the channel interference of the external communication equipment, the data real-time summarizing module is used for acquiring and summarizing the counted data, and the communication network resource allocation module is used for performing resource allocation according to the analyzed data after analyzing the counted data.

By adopting the technical scheme: the external communication equipment signal intensity comparison module comprises an external communication equipment signal intensity monitoring submodule and a plurality of signal intensity descending sorting submodules, the external communication equipment signal intensity monitoring submodule is used for monitoring the signal intensity of external communication equipment connected with a mobile communication network, monitoring data are collected and then sent to the signal intensity descending sorting submodules, the signal intensity descending sorting submodules are used for sorting the signal intensity monitoring data of the external communication equipment according to descending order, and a signal intensity sorting result is made into a first list and sent to the data real-time collecting module.

By adopting the technical scheme: the external communication equipment security analysis module comprises an external communication equipment security level judgment submodule and a security analysis submodule within a specified time, wherein the external communication equipment security level judgment submodule is used for conducting pre-division on security levels of external communication equipment connected with a mobile communication network and sending the pre-divided levels to the security analysis submodule within the specified time, the security analysis submodule within the specified time is used for monitoring security coefficients of different external communication equipment within a period of time to analyze, analysis results of the security coefficients of the different external equipment are returned to the external communication equipment security level judgment submodule, the external communication equipment security level judgment submodule conducts the security coefficient level division of the external communication equipment again according to the analysis results of the security coefficients of the different external equipment, and division data are collected to form a second list which is sent to the data real-time summarizing module.

By adopting the technical scheme: the safety analysis submodule within the specified time sets the specified time to be T0-T1, and the safety coefficient for monitoring the external communication equipment is set to be H within the specified time ₁ 、H ₂ 、H ₃ 、…、H _n-1 、H _n When H is present _n If the safety coefficient is larger than or equal to a set threshold value one, judging that the safety coefficient of the current external communication equipment is high, and if the safety coefficient is H _n And extracting the external communication equipment with the security coefficient smaller than the first set threshold value, detecting the security coefficient of the external communication equipment, and setting the security coefficient monitored by the external communication equipment to be H0 ₁ 、H0 ₂ 、H0 ₃ 、…、H0 _n-1 、H0 _n When H0 is _n If the safety coefficient is larger than or equal to the set threshold value two, judging that the safety coefficient of the current external communication equipment is qualified, and if the safety coefficient is H0 _n And if the safety coefficient is smaller than the second set threshold value, extracting the external communication equipment with the safety coefficient smaller than the second set threshold value, re-detecting the safety coefficient of the external communication equipment with the safety coefficient smaller than the second set threshold value, and setting the safety coefficient monitored by the external communication equipment to be H1 ₁ 、H1 ₂ 、H1 ₃ 、…、H1 _n-1 、H1 _n When H1 is present _n If the current safety coefficient of the external communication equipment is lower than or equal to the set threshold value III, judging that the current safety coefficient of the external communication equipment is lower when the current safety coefficient is H1 _n And if the external communication equipment is smaller than the set threshold value III, directly carrying out signal disconnection operation on the external communication equipment, and returning the screened security coefficients of different external communications to the security level judgment submodule of the external communication equipment for carrying out security level re-judgment.

By adopting the technical scheme: the external communication equipment same-frequency interference analysis module comprises an external communication equipment channel interference detection submodule and an overlapped channel corresponding marking submodule, wherein the external communication equipment channel interference detection submodule is used for monitoring whether a channel of external communication equipment is interfered or not, the channel interference rate of the external communication equipment which is interfered by the channel is counted, statistical data are sent to the overlapped channel corresponding marking submodule, the overlapped channel corresponding marking submodule monitors the interference reason of the channel of the external communication equipment which is interfered, a third list is formed after the external communication equipment which monitors the overlapped channel is marked, and the third list is sent to the data real-time gathering module.

By adopting the technical scheme: the data real-time summarizing module comprises a monitoring data acquisition submodule and a different data matching summarizing submodule, the monitoring data acquisition submodule is used for summarizing data in a first list, a second list and a third list and sending the summarized data to the different data matching summarizing submodule, the different data matching summarizing submodule is used for classifying and matching data in the first list, the second list and the third list according to different external communication equipment, the classified and matched data is made into a summarizing table, and the summarizing table is sent to the communication network resource distribution module.

By adopting the technical scheme: the communication network resource allocation module comprises a summarized data real-time analysis submodule and a resource intelligent allocation submodule, wherein the summarized data real-time analysis submodule analyzes data acquired by different external communication equipment and sequences the analyzed data, and the resource intelligent allocation submodule is used for intelligently allocating resources to the different external equipment according to the sequenced data.

A mobile communication network based resource allocation system:

s1: monitoring and counting the signal intensity of different external communication equipment by using an external communication equipment signal intensity comparison module, monitoring the signal intensity of the external communication equipment connected with a mobile communication network by using an external communication equipment signal intensity monitoring submodule, summarizing monitoring data and then sending the collected monitoring data to a plurality of signal intensity descending sorting submodules, sorting the external communication equipment signal intensity monitoring data by using the signal intensity descending sorting submodules according to a descending order, making a signal intensity sorting result into a first list and sending the first list to a data real-time summarizing module;

s2: the external communication equipment security level judging submodule is used for carrying out security level division on the external communication equipment connected with the mobile communication network, sending the pre-divided levels to the security analysis submodule within specified time, monitoring the security coefficients of different external communication equipment within a period of time for analysis, returning the analysis results of the security coefficients of different external equipment to the external communication equipment security level judging submodule, carrying out security coefficient level division on the external communication equipment again according to the analysis results of the security coefficients of different external equipment by the external communication equipment security level judging submodule, collecting the divided data, making a second list and sending the second list to the data real-time collecting module;

s3: the external communication equipment co-channel interference analysis module is used for monitoring channel interference of external communication equipment, the external communication equipment channel interference detection submodule is used for monitoring whether a channel of the external communication equipment is interfered or not, channel interference rate of the external communication equipment which is interfered by the channel is counted, statistical data are sent to the overlapping channel corresponding marking submodule, the overlapping channel corresponding marking submodule monitors interference reasons of the channel of the external communication equipment which is interfered, a third list is formed after the external communication equipment which monitors the overlapping channel is marked, and the third list is sent to the data real-time summarizing module;

s4: the data real-time summarizing module is used for summarizing the statistical data, the monitoring data acquisition sub-module summarizes the data in the first list, the second list and the third list, the summarized data are sent to the different data matching summarizing sub-module, the different data matching summarizing sub-module classifies and matches the data in the first list, the second list and the third list according to different external communication equipment, the classified and matched data are made into a summarizing table, and the summarizing table is sent to the communication network resource distribution module;

s5: and the communication network resource allocation module is used for analyzing according to the statistical data and then performing resource allocation according to the analysis data, the summarized data real-time analysis submodule analyzes the data acquired by different external communication equipment and sorts the analysis data, and the resource intelligent allocation submodule performs intelligent resource allocation on different external equipment according to the sorted data.

By adopting the technical scheme: in the step S3, the marking submodule corresponding to the overlapping channel monitors the interference cause of the external communication device channel being interfered, marks the external communication device monitoring the overlapping channel to form a third list, and sends the third list to the data real-time summarizing module, which further includes the following steps:

a1: marking out overlapped channels between the external communication equipment by using the overlapped signal corresponding marking submodule, counting the number of the overlapped channels, and returning the number to the external communication equipment channel interference detection submodule;

a2: and the external communication equipment channel interference detection submodule is used for counting the number of the overlapped channel interference by the overlapped signal corresponding marking submodule to remove, summarizing the total number of the removed channel interference to a third list, and sending the total number to the data real-time summarizing module.

By adopting the technical scheme: in step S5, after the communication network resource allocation module is used to analyze the statistical data, resource allocation is performed according to the analysis data, the summarized data real-time analysis submodule analyzes the data acquired by different external communication devices, sorts the analysis data, and the resource intelligent allocation submodule intelligently allocates resources to different external devices according to the sorted data, and the method further includes the following steps:

setting the signal intensity of the external communication equipment counted in the first list to be C respectively ₁ 、C ₂ 、C ₃ 、…、C _n-1 、C _n The second list is counted to obtain different external equipment safety coefficients K ₁ 、K ₂ 、K ₃ 、…、K _n-1 、K _n And the interference rate of different external communication equipment channels counted by the third list is J ₁ 、J ₂ 、J ₃ 、…、J _n-1 、J _n Wherein, the signal strength is R0 in the resource communication network allocation, the equipment security is R1 in the communication network resource allocation, and the channel interference rate is in the communication network resource allocationThe occupation ratio is R2, comprehensive data of different external communication equipment is set to be Z, and according to a formula:

Z= R0* C _n + R1* K _n + R2* （1-J _n ）

calculating to obtain data of different external communication equipment at present, obtaining Z total, and setting the comprehensive data of different external communication equipment as Z ₁ 、Z ₂ 、Z ₃ 、…、Z _n-1 、Z _n Setting the comprehensive data proportion of different external communication equipment as z0, according to a formula:

and calculating to obtain the comprehensive data proportion of different external communication equipment, sequencing the proportion data, sending the data to the resource intelligent distribution submodule, and carrying out intelligent resource distribution on different external equipment by the resource intelligent distribution submodule according to the sequencing data.

Compared with the prior art, the invention has the beneficial effects that: the invention aims to analyze different indexes of the external equipment and intelligently allocate communication network resources;

the external communication equipment signal intensity comparison module is used for monitoring and counting the signal intensity of different external communication equipment, the external communication equipment safety analysis module is used for analyzing and counting the safety of different external communication equipment, the external communication equipment co-channel interference analysis module is used for monitoring the channel interference of the external communication equipment, the data real-time collection module is used for collecting the counted data, and the communication network resource allocation module is used for performing resource allocation according to the analyzed data after analyzing the counted data.

Drawings

In order that the manner in which the present invention is attained and can be understood in detail, a more particular description of the invention briefly summarized above may be had by reference to the embodiments thereof which are illustrated in the appended drawings.

Fig. 1 is a schematic block diagram of a resource allocation system based on a mobile communication network according to the present invention;

FIG. 2 is a schematic diagram illustrating steps of a resource allocation system method based on a mobile communication network according to the present invention;

fig. 3 is a schematic diagram illustrating a specific step of step S3 of a resource allocation method based on a mobile communication network according to the present invention;

fig. 4 is a schematic diagram illustrating an implementation method of a resource allocation method based on a mobile communication network 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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, a resource allocation system and method based on a mobile communication network includes an external communication device signal strength comparison module, an external communication device security analysis module, an external communication device co-frequency interference analysis module, a data real-time aggregation module, and a communication network resource allocation module, where the external communication device signal strength comparison module, the external communication device security analysis module, the external communication device co-frequency interference analysis module, and the communication network resource allocation module are respectively connected to the data real-time aggregation module through an intranet;

the external communication equipment signal intensity comparison module is used for monitoring and counting the signal intensity of different external communication equipment, the external communication equipment safety analysis module is used for analyzing and counting the safety of different external communication equipment, the external communication equipment co-channel interference analysis module is used for monitoring the channel interference of the external communication equipment, the data real-time summarizing module is used for acquiring the counted data for summarizing, and the communication network resource allocation module is used for performing resource allocation according to the analyzed data after analyzing the counted data.

By adopting the technical scheme: the external communication equipment signal intensity comparison module comprises an external communication equipment signal intensity monitoring submodule and a plurality of signal intensity descending sequencing submodules, the external communication equipment signal intensity monitoring submodule is used for monitoring the signal intensity of external communication equipment connected with a mobile communication network, monitoring data are collected and then sent to the signal intensity descending sequencing submodules, the signal intensity descending sequencing submodules are used for sequencing the signal intensity monitoring data of the external communication equipment according to descending sequence, a first list of signal intensity sequencing results is made and sent to the data real-time collecting module.

By adopting the technical scheme: the external communication equipment security analysis module comprises an external communication equipment security level judgment submodule and a security analysis submodule within a specified time, wherein the external communication equipment security level judgment submodule is used for conducting pre-division on security levels of external communication equipment connected with a mobile communication network and sending the pre-divided levels to the security analysis submodule within the specified time, the security analysis submodule within the specified time is used for monitoring security coefficients of different external communication equipment within a period of time to analyze, analysis results of the security coefficients of the different external equipment are returned to the external communication equipment security level judgment submodule, the external communication equipment security level judgment submodule conducts the security coefficient level division of the external communication equipment again according to the analysis results of the security coefficients of the different external equipment, and division data are collected to form a second list which is sent to the data real-time summarizing module.

By adopting the technical scheme: the safety analysis submodule in the appointed time sets the appointed time to be T0-T1, and the safety coefficient for monitoring the external communication equipment is set to be H in the appointed time ₁ 、H ₂ 、H ₃ 、…、H _n-1 、H _n When H is present _n If the current safety coefficient of the external communication equipment is higher than or equal to a set threshold value one, judging that the current safety coefficient of the external communication equipment is high when the current safety coefficient of the external communication equipment is higher than the set threshold value one, and if the current safety coefficient of the external communication equipment is higher than the set threshold value H _n And extracting the external communication equipment with the security coefficient smaller than the first set threshold value, detecting the security coefficient of the external communication equipment, and setting the external communication equipmentThe monitored safety factor is H0 ₁ 、H0 ₂ 、H0 ₃ 、…、H0 _n-1 、H0 _n When H0 is present _n If the safety coefficient is larger than or equal to the set threshold value two, judging that the safety coefficient of the current external communication equipment is qualified, and if the safety coefficient is H0 _n And if the safety coefficient is smaller than the second set threshold value, extracting the external communication equipment with the safety coefficient smaller than the second set threshold value, re-detecting the safety coefficient of the external communication equipment with the safety coefficient smaller than the second set threshold value, and setting the safety coefficient monitored by the external communication equipment to be H1 ₁ 、H1 ₂ 、H1 ₃ 、…、H1 _n-1 、H1 _n When H1 is present _n If the current safety coefficient of the external communication equipment is more than or equal to the set threshold value three, judging that the current safety coefficient of the external communication equipment is low when the current safety coefficient of the external communication equipment is H1 _n And if the external communication equipment safety coefficient is smaller than the third set threshold value, directly performing signal disconnection operation on the external communication equipment, and returning the screened safety coefficients of different external communications to the external communication equipment safety level judgment submodule to perform safety level re-judgment.

By adopting the technical scheme: the external communication equipment same-frequency interference analysis module comprises an external communication equipment channel interference detection submodule and an overlapped channel corresponding marking submodule, wherein the external communication equipment channel interference detection submodule is used for monitoring whether a channel of external communication equipment is interfered or not, the channel interference rate of the external communication equipment which is interfered by the channel is counted, statistical data are sent to the overlapped channel corresponding marking submodule, the overlapped channel corresponding marking submodule monitors the interference reason of the channel of the external communication equipment which is interfered, a third list is formed after the external communication equipment which is used for monitoring the overlapped channel is marked, and the third list is sent to the data real-time summarizing module.

By adopting the technical scheme: the data real-time summarizing module comprises a monitoring data acquisition submodule and a different data matching summarizing submodule, the monitoring data acquisition submodule is used for summarizing data in a first list, a second list and a third list and sending the summarized data to the different data matching summarizing submodule, the different data matching summarizing submodule is used for classifying and matching data in the first list, the second list and the third list according to different external communication equipment, the classified and matched data is made into a summarizing table, and the summarizing table is sent to the communication network resource distribution module.

By adopting the technical scheme: the communication network resource allocation module comprises a summarized data real-time analysis submodule and a resource intelligent allocation submodule, wherein the summarized data real-time analysis submodule analyzes data acquired by different external communication equipment and sequences the analyzed data, and the resource intelligent allocation submodule is used for intelligently allocating resources to the different external equipment according to the sequenced data.

A mobile communication network based resource allocation system:

s1: monitoring and counting the signal intensity of different external communication equipment by using an external communication equipment signal intensity comparison module, monitoring the signal intensity of the external communication equipment connected with a mobile communication network by using an external communication equipment signal intensity monitoring submodule, summarizing monitoring data and then sending the summarized monitoring data to a plurality of signal intensity descending sequencing submodules, sequencing the signal intensity monitoring data of the external communication equipment by using the signal intensity descending sequencing submodules according to a descending sequence, making a signal intensity sequencing result into a first list and sending the first list to a data real-time summarizing module;

s2: the external communication equipment security level judgment submodule is used for conducting pre-division on security levels of external communication equipment connected with a mobile communication network, sending the pre-divided levels to the security analysis submodule within specified time, monitoring security coefficients of different external communication equipment within a period of time for analysis, returning analysis results of the security coefficients of the different external communication equipment to the external communication equipment security level judgment submodule, conducting the security coefficient level division on the external communication equipment again according to the analysis results of the security coefficients of the different external communication equipment by the external communication equipment security level judgment submodule, collecting the divided data, making a second list and sending the second list to the data real-time collecting module;

s3: the external communication equipment co-frequency interference analysis module is used for monitoring channel interference of external communication equipment, the external communication equipment channel interference detection submodule is used for monitoring whether a channel of the external communication equipment is interfered, the channel interference rate of the external communication equipment which is interfered by the channel is counted, statistical data are sent to the overlapping channel corresponding marking submodule, the overlapping channel corresponding marking submodule monitors the interference reasons of the channel of the external communication equipment which is interfered, the external communication equipment which monitors the overlapping channel is marked to form a third list, and the third list is sent to the data real-time summarizing module;

s4: the data real-time summarizing module is used for obtaining statistical data for summarizing, the monitoring data obtaining sub-module summarizes data in the first list, the second list and the third list, the summarized data are sent to different data matching summarizing sub-modules, the different data matching summarizing sub-modules classify and match the data in the first list, the second list and the third list according to different external communication equipment, the classified and matched data are made into a summarizing table, and the summarizing table is sent to the communication network resource distribution module;

s5: the communication network resource allocation module is used for analyzing according to the statistical data and then performing resource allocation according to the analysis data, the summarized data real-time analysis submodule analyzes the data acquired by different external communication equipment and sorts the analysis data, and the resource intelligent allocation submodule performs intelligent resource allocation on the different external equipment according to the sorted data.

By adopting the technical scheme: in the step S3, the marking submodule corresponding to the overlapping channel monitors the interference cause of the external communication device channel being interfered, marks the external communication device monitoring the overlapping channel to form a third list, and sends the third list to the data real-time summarizing module, which further includes the following steps:

a1: marking out overlapped channels between the external communication equipment by using the overlapped signal corresponding marking submodule, counting the number of the overlapped channels, and returning the number to the external communication equipment channel interference detection submodule;

a2: and the external communication equipment channel interference detection submodule is used for counting the number of the overlapped channel interference by the overlapped signal corresponding marking submodule to remove, summarizing the total number of the removed channel interference to a third list, and sending the total number to the data real-time summarizing module.

By adopting the technical scheme: in step S5, after the communication network resource allocation module is used to analyze the statistical data, resource allocation is performed according to the analysis data, the summarized data real-time analysis submodule analyzes the data acquired by different external communication devices, sorts the analysis data, and the resource intelligent allocation submodule intelligently allocates resources to different external devices according to the sorted data, and the method further includes the following steps:

setting the signal intensity of the external communication equipment counted in the first list to be C respectively ₁ 、C ₂ 、C ₃ 、…、C _n-1 、C _n The second list is counted to obtain different external equipment safety coefficients K ₁ 、K ₂ 、K ₃ 、…、K _n-1 、K _n The third list is counted to obtain the channel interference rate of different external communication devices as J ₁ 、J ₂ 、J ₃ 、…、J _n-1 、J _n Wherein, the occupation ratio of the signal intensity in the resource communication network allocation is R0, the occupation ratio of the equipment safety in the communication network resource allocation is R1, the occupation ratio of the channel interference rate in the communication network resource allocation is R2, the comprehensive data of different external communication equipment is set as Z, and according to the formula:

Z= R0*C _n +R1*K _n +R2*（1-J _n ）

calculating to obtain data of different external communication equipment at present, obtaining Z total, and setting the comprehensive data of different external communication equipment as Z ₁ 、Z ₂ 、Z ₃ 、…、Z _n-1 、Z _n Setting the comprehensive data proportion of different external communication equipment as z0, according to a formula:

and calculating to obtain the comprehensive data proportion of different external communication equipment, sequencing the proportion data, sending the data to the resource intelligent distribution submodule, and carrying out intelligent resource distribution on different external equipment by the resource intelligent distribution submodule according to the sequencing data.

Example 1: limiting conditions, setting the designated time in the safety analysis submodule within the designated time to be 1-20 s, and monitoring the safety coefficients H of different external communication devices within the designated time _n Set to 2, 7, 3, 5, 6, 9 when H _n More than or equal to a first set threshold value, wherein the first set threshold value is 7, the current safety coefficient of the external communication equipment is judged to be high, and when H is higher than H _n If the safety coefficient is smaller than the first set threshold value, extracting the external communication equipment of which the safety coefficient is smaller than the first set threshold value, detecting the safety coefficient of the external communication equipment, and setting a safety coefficient H0 monitored by the external communication equipment _n Is 2, 3, 5, 6, when H0 _n More than or equal to a second set threshold value, wherein the second set threshold value is 5, the current security coefficient of the external communication equipment is judged to be qualified, and when H0 _n If the safety coefficient is smaller than the second set threshold value, extracting the external communication equipment of which the safety coefficient is smaller than the second set threshold value, re-detecting the safety coefficient of the external communication equipment of which the safety coefficient is smaller than the second set threshold value, setting the safety coefficient of monitoring of the external communication equipment to be 2 and 3, and when the safety coefficient is H1 _n More than or equal to a third set threshold value, wherein the third set threshold value is 3, the current external communication equipment safety coefficient is judged to be low, and when H1 is reached _n And if the external communication equipment safety coefficient is smaller than the third set threshold value, directly performing signal disconnection operation on the external communication equipment, and returning the screened safety coefficients of different external communications to the external communication equipment safety level judgment submodule to perform safety level re-judgment.

Example 2: defining conditions, setting the signal intensity of external communication equipment counted in a first list to be 3, 1, 4 and 2 respectively, setting the security coefficients of different external equipment counted in a second list to be 4, 7, 6 and 3, setting the channel interference rate of different external communication equipment counted in a third list to be 31%, 77%, 42% and 6%, wherein the signal intensity accounts for 20% in resource communication network allocation, the equipment security accounts for 50% in communication network resource allocation, the channel interference rate accounts for 30% in communication network resource allocation, setting the comprehensive data of different external communication equipment to be Z, and according to a formula:

Z1= 20%*3+50%*4+30%*（1-31%）≈2.8 Z2= 20%*1+50%*7+30%*（1-77%）≈3.8

Z3= 20%*4+50%*6+30%*（1-42%）≈4

Z4= 20%*2+50%*3+30%*（1-6%）≈2.2

calculating to obtain data of different current external communication devices, obtaining Z total =12.8, setting comprehensive data of different external communication devices to be 2.8, 3.8, 4 and 2.2, setting comprehensive data of different external communication devices to be Z0, and according to a formula:

and calculating to obtain the comprehensive data proportion of different external communication equipment, sequencing the proportion data, sending the data to the resource intelligent distribution submodule, and carrying out intelligent resource distribution on different external equipment by the resource intelligent distribution submodule according to the sequencing data.

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 (1)

1. A resource allocation system based on a mobile communication network, characterized in that: the system comprises an external communication equipment signal intensity comparison module, an external communication equipment safety analysis module, an external communication equipment co-frequency interference analysis module, a data real-time summarizing module and a communication network resource allocation module, wherein the external communication equipment signal intensity comparison module, the external communication equipment safety analysis module, the external communication equipment co-frequency interference analysis module and the communication network resource allocation module are respectively connected with the data real-time summarizing module through an intranet;

the external communication equipment signal intensity comparison module is used for monitoring and counting the signal intensity of different external communication equipment, the external communication equipment security analysis module is used for analyzing and counting the security of different external communication equipment, the external communication equipment co-frequency interference analysis module is used for monitoring the channel interference of the external communication equipment, the data real-time summarizing module is used for acquiring and summarizing the counted data, and the communication network resource allocation module is used for performing resource allocation according to the analyzed data after analyzing the counted data;

the external communication equipment security analysis module comprises an external communication equipment security level judgment submodule and a security analysis submodule within specified time, wherein the external communication equipment security level judgment submodule is used for pre-dividing the security level of external communication equipment connected with a mobile communication network and sending the pre-divided level to the security analysis submodule within the specified time, the security analysis submodule within the specified time is used for monitoring the security coefficients of different external communication equipment within a period of time for analysis and returning the analysis results of the security coefficients of different external equipment to the external communication equipment security level judgment submodule, the external communication equipment security level judgment submodule performs security coefficient level division of the external communication equipment again according to the analysis results of the security coefficients of different external equipment, divides data into a second list and sends the second list to the data real-time summarizing module;

the safety analysis submodule within the specified time sets the specified time to be T0-T1, and the safety coefficient for monitoring the external communication equipment is set to be H within the specified time ₁ 、H ₂ 、H ₃ 、…、H _n-1 、H _n When H is present _n If the safety coefficient is larger than or equal to a set threshold value one, judging that the safety coefficient of the current external communication equipment is high, and if the safety coefficient is H _n Is less thanDetermining a first threshold value, extracting the external communication equipment with the security coefficient smaller than the first threshold value, detecting the security coefficient of the external communication equipment, and setting the security coefficient monitored by the external communication equipment as H0 ₁ 、H0 ₂ 、H0 ₃ 、…、H0 _n-1 、H0 _n When H0 is _n If the safety coefficient is larger than or equal to the set threshold value two, judging that the safety coefficient of the current external communication equipment is qualified, and if the safety coefficient is H0 _n And if the safety coefficient is smaller than the second set threshold value, extracting the external communication equipment with the safety coefficient smaller than the second set threshold value, re-detecting the safety coefficient of the external communication equipment with the safety coefficient smaller than the second set threshold value, and setting the safety coefficient monitored by the external communication equipment to be H1 ₁ 、H1 ₂ 、H1 ₃ 、…、H1 _n-1 、H1 _n When H1 is present _n If the current safety coefficient of the external communication equipment is more than or equal to the set threshold value three, judging that the current safety coefficient of the external communication equipment is low when the current safety coefficient of the external communication equipment is H1 _n If the external communication equipment safety coefficient is less than the set threshold value III, directly carrying out signal disconnection operation on the external communication equipment, and returning the screened different external communication equipment safety coefficients to the external communication equipment safety level judgment submodule for carrying out safety level re-judgment;

the external communication equipment same-frequency interference analysis module comprises an external communication equipment channel interference detection submodule and an overlapped channel corresponding marking submodule, wherein the external communication equipment channel interference detection submodule is used for monitoring whether a channel of external communication equipment is interfered or not, counting the channel interference rate of the external communication equipment which is interfered by the channel, sending statistical data to the overlapped channel corresponding marking submodule, monitoring the interference reason of the channel of the external communication equipment which is interfered by the overlapped channel corresponding marking submodule, marking the external communication equipment which monitors the overlapped channel to form a third list, and sending the third list to the data real-time summarizing module;

the communication network resource allocation module comprises a summarized data real-time analysis submodule and a resource intelligent allocation submodule, wherein the summarized data real-time analysis submodule analyzes data acquired by different external communication equipment and sequences the analyzed data, and the resource intelligent allocation submodule is used for intelligently allocating resources to the different external equipment according to the sequenced data.

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