CN112019441B - Communication flow control system and method adopting relay equipment - Google Patents
Communication flow control system and method adopting relay equipment Download PDFInfo
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- CN112019441B CN112019441B CN202010767646.8A CN202010767646A CN112019441B CN 112019441 B CN112019441 B CN 112019441B CN 202010767646 A CN202010767646 A CN 202010767646A CN 112019441 B CN112019441 B CN 112019441B
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L47/00—Traffic control in data switching networks
- H04L47/10—Flow control; Congestion control
- H04L47/29—Flow control; Congestion control using a combination of thresholds
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L25/00—Baseband systems
- H04L25/02—Details ; arrangements for supplying electrical power along data transmission lines
- H04L25/20—Repeater circuits; Relay circuits
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/14—Network analysis or design
- H04L41/142—Network analysis or design using statistical or mathematical methods
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L47/00—Traffic control in data switching networks
- H04L47/10—Flow control; Congestion control
- H04L47/24—Traffic characterised by specific attributes, e.g. priority or QoS
- H04L47/2416—Real-time traffic
Abstract
The invention discloses a communication flow control system and method using relay equipment, the system comprises a communication flow demand acquisition module, a communication flow use threshold limiting module, a communication flow use abnormal control execution module, a key communication opposite terminal equipment speed limit analysis module and a communication equipment response broadcast sub-module, the communication flow demand acquisition module acquires the current user equipment use communication flow for counting, the communication flow use threshold limiting module monitors the real-time use flow of the user equipment, the communication flow use abnormal control execution module carries out abnormal flow counting under the condition that the real-time use flow exceeds a set threshold, the key communication opposite terminal equipment speed limit analysis module analyzes the opposite terminal equipment which abnormally uses the communication flow and then limits the speed, the communication equipment response broadcast sub-module utilizes the relay equipment to improve the signal quality under the condition that the same communication flow is used firstly, the aim is to analyse the total amount of real-time traffic of all user equipments.
Description
Technical Field
The invention relates to the field of flow control, in particular to a communication flow control system and a communication flow control method adopting relay equipment.
Background
When the isomorphic network segments with the same interface and the same medium access control protocol are interconnected, the relay equipment is added in the middle and can amplify and retransmit the transmitted signals. Therefore, signal attenuation caused by overlong cable lines of the network segment can be avoided, and the transmission reliability is effectively improved.
When the network repeater interconnects isomorphic network segments with the same interface and the same medium access control protocol, the instrument device is added in the middle, and can amplify and retransmit the transmitted signal. Therefore, signal attenuation caused by overlong cable lines of the network segment can be avoided, and the transmission reliability is effectively improved. In fact, the instrumentation devices that typically act as repeaters in the network hardware devices are also known by many names. For example, an "active" (actively regenerating) repeater center, such as an active hub, is more commonly referred to as a repeater (hub), although it is also sometimes referred to as a multiport repeater. In general, other types of "passive" (passive) relay components do not belong to the repeater. A network repeater may also be understood as an interconnected device that constructively implements a network at the physical level. With the continuous development of computer communication network technology and equipment, the functions of network repeaters must be greatly increased, and the network repeaters are more efficient and safer.
At present, the usage rule of communication traffic limits the speed after using excess traffic for a certain user, but the speed limit is directly performed on user equipment under the condition that the communication traffic is still vacant, so that the efficiency of the user equipment is reduced.
Disclosure of Invention
The present invention aims to provide a communication flow control system and method using a relay device to solve the problems in the prior art.
In order to achieve the purpose, the invention provides the following technical scheme:
a communication flow control system adopting relay equipment comprises a communication flow demand acquisition module, a communication flow use threshold limiting module, a communication flow use abnormity control execution module, a key communication opposite terminal equipment speed limit analysis module and a communication equipment response broadcast sub-module, wherein the communication flow demand acquisition module, the communication flow use threshold limiting module, the communication flow use abnormity control execution module and the key communication opposite terminal equipment speed limit analysis module are sequentially connected through an intranet, and the communication equipment response broadcast sub-module is respectively connected with the communication flow use threshold limiting module and the key communication opposite terminal equipment speed limit analysis module through the intranet;
the communication flow demand acquisition module is used for acquiring current communication flow used by user equipment for statistics, the communication flow use threshold limiting module is used for monitoring real-time use flow of the user equipment and comparing the real-time use flow with a set flow threshold, the communication flow use abnormal control execution module is used for carrying out abnormal flow statistics under the condition that the real-time use flow exceeds the set flow threshold, the key communication opposite-end equipment speed limit analysis module is used for carrying out analysis speed limit on opposite-end equipment which abnormally uses the communication flow, and the communication equipment response broadcast sub-module is used for promoting signal quality by utilizing relay equipment under the condition that the same communication flow is used firstly.
By adopting the technical scheme: the communication flow demand acquisition module comprises a user equipment network access historical communication flow accumulation submodule and a communication flow usage ordering submodule, wherein the user equipment network access historical communication flow accumulation submodule is used for counting the historical usage flow of user equipment accessed to the current communication network and summarizing the usage flow, and the communication flow usage ordering submodule is used for ordering the communication flow counted and used by different user equipment and sending the ordering result to the communication flow usage threshold limiting module.
By adopting the technical scheme: the communication traffic use threshold limiting module comprises a communication opposite terminal device real-time traffic value counting submodule and a real-time communication data traffic analyzing submodule, wherein the communication opposite terminal device real-time traffic value counting submodule is used for counting the use traffic of devices which are accessed to a current communication network and are communicated with each other in real time and sending the counting data to the real-time communication data traffic analyzing submodule, and the real-time communication data traffic analyzing submodule is used for analyzing the real-time communication traffic in the directional time period of the opposite terminal communication device.
By adopting the technical scheme: the real-time communication data traffic analysis submodule acquires historical use traffic of user equipment accessed to the current communication network counted by the communication traffic demand acquisition module, sets the historical use traffic to be Z0, and sets the historical use traffic of the user equipment currently accessed to the communication network to be C1、C2、C3、…、Cn-1、CnSetting the ratio of the traffic of different user equipments to beExtracting the user equipment with the current user equipment usage flow rate ratio exceeding a set threshold value one, setting a directional time Tn, and carrying out traffic flow rate usage statistics on the extracted user equipment to be Cr1、Cr2、Cr3、…、CrnSetting the total real-time traffic threshold of current wireless communication as K, setting the real-time traffic threshold of user equipment in the current communication network as K0, according to the formula:
if the current user equipment use flow meets the formula, the response broadcast submodule of the access communication equipment of the user equipment amplifies the transmission signal, and when the communication flow used by the access communication network user equipment does not meet the formula, the communication flow used by the monitoring user equipment is sent to the communication flow use abnormity control execution module for analysis.
By adopting the technical scheme: the communication traffic use abnormity control execution module comprises a user equipment excess traffic statistics submodule and a communication opposite terminal equipment data transmission importance marking submodule, wherein the user equipment excess traffic statistics submodule is used for counting communication traffic used by user equipment which does not meet a formula and is analyzed by a real-time communication data traffic analysis submodule, and the communication opposite terminal equipment data transmission importance marking submodule carries out artificial importance identification on the user equipment which exceeds the used communication traffic and marks more important user equipment.
By adopting the technical scheme: the key communication opposite-end equipment speed limit analysis module comprises a communication opposite-end equipment communication flow usage statistics submodule, an inter-equipment sectional type speed limit analysis submodule and a manual feedback platform, wherein the communication opposite-end equipment communication flow usage statistics submodule is used for acquiring the excess flow of the opposite-end equipment exceeding a real-time usage flow threshold value, which is counted by the user equipment excess flow statistics submodule, and the inter-equipment sectional type speed limit analysis submodule is used for carrying out sectional type analysis on the excess flow and carrying out sectional type speed limit on the user equipment according to the flow of the user equipment exceeding the usage flow.
By adopting the technical scheme: the manual feedback platform is used for receiving the data transmission speed which exceeds the user equipment speed limit of the real-time use flow threshold value, feeding the data transmission speed back to manual work for auditing, and adjusting the data transmission speed of the user equipment in real time by an operator according to actual conditions.
By adopting the technical scheme: the communication equipment response broadcast amplification module comprises a relay equipment access submodule and a data signal quality regulation submodule, wherein the relay equipment access submodule is used for accessing the relay equipment into a communication network, and the data signal quality regulation submodule is used for regulating the communication network according to the accessed relay equipment.
A communication flow control method using a relay apparatus:
s1: the method comprises the steps that a communication flow demand acquisition module is used for acquiring and counting communication flow used by current user equipment, a user equipment network access historical communication flow accumulation submodule counts historical used flow of the user equipment accessed to a current communication network, the used flow is collected, a communication flow usage ordering submodule orders the communication flow used by different user equipment, and an ordering result is sent to a communication flow usage threshold limiting module;
s2: monitoring the real-time use flow of user equipment by using a communication flow use threshold limiting module, comparing the real-time use flow with a set flow threshold, carrying out real-time statistics on the use flow of equipment which is accessed to a current communication network and is communicated with each other by a communication opposite-end equipment real-time flow value statistical submodule, sending statistical data to a real-time communication data flow analysis submodule, and analyzing the real-time communication flow in an opposite-end communication equipment directional time period by the real-time communication data flow analysis submodule;
s3: the communication traffic use abnormal control execution module is used for carrying out abnormal traffic statistics under the condition that the real-time use traffic exceeds a set threshold value, the user equipment excess traffic statistics submodule carries out statistics on the communication traffic used by the user equipment which does not meet a formula, which is analyzed by the real-time communication data traffic analysis submodule, and the communication opposite-end equipment data transmission importance marking submodule carries out manual importance identification on the user equipment which exceeds the use communication traffic and marks the more important user equipment;
s4: the method comprises the steps that a key communication opposite-end equipment speed limit analysis module is used for carrying out speed limit after opposite-end equipment which abnormally uses communication flow is analyzed, a communication opposite-end equipment communication flow usage amount statistic submodule acquires the excess flow, which exceeds a real-time usage flow threshold, of opposite-end equipment counted by a user equipment excess flow statistic submodule, a sectional type speed limit analysis submodule among equipment carries out sectional type analysis on the excess flow, sectional type speed limit is carried out on the user equipment according to the excess usage flow of the user equipment, a manual feedback platform is used for receiving the data transmission speed, which exceeds the real-time usage flow threshold, of the user equipment after the speed limit is carried out, the data transmission speed is fed back to manual examination, and an operator combines actual conditions to carry;
s5: the relay equipment access submodule accesses the relay equipment into a communication network, and the data signal quality adjusting submodule adjusts according to the accessed communication network for the relay equipment.
By adopting the technical scheme: in step S4, the method includes the steps of analyzing an opposite device that abnormally uses communication traffic by using a key communication opposite device speed limit analysis module, limiting speed, acquiring excess traffic of the opposite device exceeding a real-time usage traffic threshold value, which is counted by a user device excess traffic counting submodule, by a communication opposite device communication traffic usage counting submodule, performing sectional analysis on the excess traffic by an inter-device sectional type speed limit analysis submodule, and performing sectional type speed limit on the user device according to the excess traffic of the user device, and further includes the following steps:
setting the flow rate used by the user equipment in real time as R1、R2、R3、…、Rn-1、RnSetting the real-time use flow threshold value of the user equipment in the current communication network as K0, and extracting RnThe user equipment with the flow rate more than K0 sets the communication flow rate of the current user equipment with the excess use as F, and according to the formula: f ═ RnK0, calculating the excess communication flow used by the user equipment as F1、F2、F3、…、Fn-1、FnSetting the normal network speed of the current communication network as N, setting the network speed after speed limiting as Vn, and according to a formula:
and calculating the network speed limited after the different user equipment uses the excess flow, and limiting the speed of the different user equipment after using the excess flow, so as to ensure that the network speed of the user equipment which does not use the excess flow is normal.
Compared with the prior art, the invention has the beneficial effects that: the invention aims to analyze the real-time traffic total of all user equipment, and re-limit the speed of part of user equipment under the condition that the real-time traffic total is excessive;
the communication flow demand obtaining module is used for obtaining the current communication flow used by the user equipment for statistics, the communication flow use threshold limiting module is used for monitoring the real-time use flow of the user equipment and comparing the real-time use flow with a set flow threshold, the communication flow use abnormal control execution module is used for carrying out abnormal flow statistics under the condition that the real-time use flow exceeds the set flow threshold, the key communication opposite-end equipment speed limit analysis module is used for carrying out analysis and speed limit on opposite-end equipment which abnormally uses the communication flow, and the communication equipment response broadcast sub-module is used for promoting the signal quality by utilizing the relay equipment under the condition that the same communication flow is used firstly.
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 communication traffic flow control system using a relay apparatus according to the present invention;
fig. 2 is a schematic diagram illustrating specific steps of a communication flow control method using a relay device according to the present invention;
fig. 3 is a schematic diagram illustrating an implementation of a communication flow control method using a relay device 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 the embodiment of the present invention, a communication flow control system and method using a relay device includes a communication flow demand acquisition module, a communication flow usage threshold limiting module, a communication flow usage anomaly control execution module, a key communication peer device speed limit analysis module, and a communication device response broadcast sub-module, where the communication flow demand acquisition module and the communication flow usage threshold limiting module are connected in sequence via an intranet, and the communication device response broadcast sub-module is connected to the communication flow usage threshold limiting module and the key communication peer device speed limit analysis module via the intranet respectively;
the communication flow demand acquisition module is used for acquiring current communication flow used by user equipment for statistics, the communication flow use threshold limiting module is used for monitoring real-time use flow of the user equipment and comparing the real-time use flow with a set flow threshold, the communication flow use abnormal control execution module is used for carrying out abnormal flow statistics under the condition that the real-time use flow exceeds the set flow threshold, the key communication opposite-end equipment speed limit analysis module is used for carrying out analysis speed limit on opposite-end equipment which abnormally uses the communication flow, and the communication equipment response broadcast sub-module is used for promoting signal quality by utilizing relay equipment under the condition that the same communication flow is used firstly.
By adopting the technical scheme: the communication flow demand acquisition module comprises a user equipment network access historical communication flow accumulation submodule and a communication flow usage ordering submodule, wherein the user equipment network access historical communication flow accumulation submodule is used for counting the historical usage flow of user equipment accessed to the current communication network and summarizing the usage flow, and the communication flow usage ordering submodule is used for ordering the communication flow counted and used by different user equipment and sending the ordering result to the communication flow usage threshold limiting module.
By adopting the technical scheme: the communication traffic use threshold limiting module comprises a communication opposite terminal device real-time traffic value counting submodule and a real-time communication data traffic analyzing submodule, wherein the communication opposite terminal device real-time traffic value counting submodule is used for counting the use traffic of devices which are accessed to a current communication network and are communicated with each other in real time and sending the counting data to the real-time communication data traffic analyzing submodule, and the real-time communication data traffic analyzing submodule is used for analyzing the real-time communication traffic in the directional time period of the opposite terminal communication device.
By adopting the technical scheme: the real-time communication data traffic analysis submodule acquires historical use traffic of user equipment accessed to the current communication network counted by the communication traffic demand acquisition module, sets the historical use traffic to be Z0, and sets the historical use traffic of the user equipment currently accessed to the communication network to be C1、C2、C3、…、Cn-1、CnSetting the ratio of the traffic of different user equipments to beExtracting the user equipment with the current user equipment usage flow rate ratio exceeding a set threshold value one, setting a directional time Tn, and carrying out traffic flow rate usage statistics on the extracted user equipment to be Cr1、Cr2、Cr3、…、CrnSetting the total real-time traffic threshold of current wireless communication as K, setting the real-time traffic threshold of user equipment in the current communication network as K0, according to the formula:
if the current user equipment use flow meets the formula, the response broadcast submodule of the access communication equipment of the user equipment amplifies the transmission signal, and when the communication flow used by the access communication network user equipment does not meet the formula, the communication flow used by the monitoring user equipment is sent to the communication flow use abnormity control execution module for analysis.
By adopting the technical scheme: the communication traffic use abnormity control execution module comprises a user equipment excess traffic statistics submodule and a communication opposite terminal equipment data transmission importance marking submodule, wherein the user equipment excess traffic statistics submodule is used for counting communication traffic used by user equipment which does not meet a formula and is analyzed by a real-time communication data traffic analysis submodule, and the communication opposite terminal equipment data transmission importance marking submodule carries out artificial importance identification on the user equipment which exceeds the used communication traffic and marks more important user equipment.
By adopting the technical scheme: the key communication opposite-end equipment speed limit analysis module comprises a communication opposite-end equipment communication flow usage statistics submodule, an inter-equipment sectional type speed limit analysis submodule and a manual feedback platform, wherein the communication opposite-end equipment communication flow usage statistics submodule is used for acquiring the excess flow of the opposite-end equipment exceeding a real-time usage flow threshold value, which is counted by the user equipment excess flow statistics submodule, and the inter-equipment sectional type speed limit analysis submodule is used for carrying out sectional type analysis on the excess flow and carrying out sectional type speed limit on the user equipment according to the flow of the user equipment exceeding the usage flow.
By adopting the technical scheme: the manual feedback platform is used for receiving the data transmission speed which exceeds the user equipment speed limit of the real-time use flow threshold value, feeding the data transmission speed back to manual work for auditing, and adjusting the data transmission speed of the user equipment in real time by an operator according to actual conditions.
By adopting the technical scheme: the communication equipment response broadcast amplification module comprises a relay equipment access submodule and a data signal quality regulation submodule, wherein the relay equipment access submodule is used for accessing the relay equipment into a communication network, and the data signal quality regulation submodule is used for regulating the communication network according to the accessed relay equipment.
A communication flow control method using a relay apparatus:
s1: the method comprises the steps that a communication flow demand acquisition module is used for acquiring and counting communication flow used by current user equipment, a user equipment network access historical communication flow accumulation submodule counts historical used flow of the user equipment accessed to a current communication network, the used flow is collected, a communication flow usage ordering submodule orders the communication flow used by different user equipment, and an ordering result is sent to a communication flow usage threshold limiting module;
s2: monitoring the real-time use flow of user equipment by using a communication flow use threshold limiting module, comparing the real-time use flow with a set flow threshold, carrying out real-time statistics on the use flow of equipment which is accessed to a current communication network and is communicated with each other by a communication opposite-end equipment real-time flow value statistical submodule, sending statistical data to a real-time communication data flow analysis submodule, and analyzing the real-time communication flow in an opposite-end communication equipment directional time period by the real-time communication data flow analysis submodule;
s3: the communication traffic use abnormal control execution module is used for carrying out abnormal traffic statistics under the condition that the real-time use traffic exceeds a set threshold value, the user equipment excess traffic statistics submodule carries out statistics on the communication traffic used by the user equipment which does not meet a formula, which is analyzed by the real-time communication data traffic analysis submodule, and the communication opposite-end equipment data transmission importance marking submodule carries out manual importance identification on the user equipment which exceeds the use communication traffic and marks the more important user equipment;
s4: the method comprises the steps that a key communication opposite-end equipment speed limit analysis module is used for carrying out speed limit after opposite-end equipment which abnormally uses communication flow is analyzed, a communication opposite-end equipment communication flow usage amount statistic submodule acquires the excess flow, which exceeds a real-time usage flow threshold, of opposite-end equipment counted by a user equipment excess flow statistic submodule, a sectional type speed limit analysis submodule among equipment carries out sectional type analysis on the excess flow, sectional type speed limit is carried out on the user equipment according to the excess usage flow of the user equipment, a manual feedback platform is used for receiving the data transmission speed, which exceeds the real-time usage flow threshold, of the user equipment after the speed limit is carried out, the data transmission speed is fed back to manual examination, and an operator combines actual conditions to carry;
s5: the relay equipment access submodule accesses the relay equipment into a communication network, and the data signal quality adjusting submodule adjusts according to the accessed communication network for the relay equipment.
By adopting the technical scheme: in step S4, the method includes the steps of analyzing an opposite device that abnormally uses communication traffic by using a key communication opposite device speed limit analysis module, limiting speed, acquiring excess traffic of the opposite device exceeding a real-time usage traffic threshold value, which is counted by a user device excess traffic counting submodule, by a communication opposite device communication traffic usage counting submodule, performing sectional analysis on the excess traffic by an inter-device sectional type speed limit analysis submodule, and performing sectional type speed limit on the user device according to the excess traffic of the user device, and further includes the following steps:
setting the flow rate used by the user equipment in real time as R1、R2、R3、…、Rn-1、RnSetting the real-time use flow threshold value of the user equipment in the current communication network as K0, and extracting RnThe user equipment with the flow rate more than K0 sets the communication flow rate of the current user equipment with the excess use as F, and according to the formula: f ═ RnK0, calculating the excess communication flow used by the user equipment as F1、F2、F3、…、Fn-1、FnSetting the normal network speed of the current communication network as N, setting the network speed after speed limiting as Vn, and according to a formula:
and calculating the network speed limited after the different user equipment uses the excess flow, and limiting the speed of the different user equipment after using the excess flow, so as to ensure that the network speed of the user equipment which does not use the excess flow is normal.
Example 1: the method comprises the steps of defining conditions, setting historical use flow as 99GB, setting historical use flow as 31GB, 42GB, 9GB and 7GB for the user equipment currently accessed to the communication network, and setting the use flow ratio of different user equipment as Extracting user equipment with the current user equipment usage flow ratio exceeding a set threshold value one, setting the threshold value to be 30%, setting directional time to be 2h, carrying out communication flow usage statistics on the extracted user equipment to be 14GB and 21GB, setting the current wireless communication real-time flow total usage threshold value to be 52GB, setting the current communication network user equipment real-time usage flow threshold value to be 15GB/h, and according to a formula:
the current user equipment uses the flow to meet the formula, and the response broadcast submodule of the access communication equipment of the extracted user equipment is used for amplifying the transmission signal.
Example 2: limiting conditions, setting historical use flow as 104GB, setting historical use flow as 23GB, 32GB, 15GB and 44GB for user equipment currently accessed to the communication network, and setting the use flow ratio of different user equipment as Extracting user equipment with the current user equipment usage flow ratio exceeding a set threshold value one, setting the threshold value to be 30%, setting the directional time to be 1.5h, carrying out communication flow usage statistics on the extracted user equipment to be 9GB and 17GB, setting the current real-time flow total usage threshold value of wireless communication to be 27GB, setting the current real-time usage flow threshold value of the user equipment in a communication network to be 7GB/h, and according to a formula:
and the communication flow used by the user equipment accessing the communication network does not satisfy the formula, and the communication flow used by the monitoring user equipment is sent to the communication flow use abnormity control execution module for analysis.
Example 3: limiting conditions, setting the real-time used flow of the user equipment to be 11GB/h, 14GB/h, 9GB/h, 3.7GB/h and 8GB/h, setting the real-time used flow threshold of the user equipment in the current communication network to be 7GB/h, extracting RnAnd if the user equipment is more than 7GB/h, setting the excess use real-time communication flow of the current user equipment as F, according to a formula: f ═ RnK0, calculating to obtain the excess communication flow used by the user equipment as 3GB/h, 7GB/h, 2GB/h and 1GB/h, setting the normal network speed of the current communication network as 72M/s, setting the network speed after speed limiting as Vn, according to the formula:
calculating to obtain: the network speed after the user equipment with the excess use real-time flow of 3GB/h, 2GB/h and 1GB/h limits the speed is as follows: and after the speed of the user equipment with the excess use real-time flow of 7GB/h is limited, the network speed is as follows: and Vn is 72M/s and 30 percent is 21.6M/s, the speed of different user equipment is limited after the different user equipment uses the excess traffic, and the network speed of the user equipment which does not use the excess traffic is ensured to be normal.
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 (5)
1. A communication flow control system using a relay apparatus, characterized in that: the system comprises a communication flow demand acquisition module, a communication flow use threshold limiting module, a communication flow use abnormal control execution module, a key communication opposite-end equipment speed limit analysis module and a communication equipment response broadcast sub-module, wherein the communication flow demand acquisition module and the communication flow use threshold limiting module are sequentially connected through an intranet;
the communication flow demand acquisition module is used for acquiring the current communication flow used by the user equipment for statistics, the communication flow use threshold limiting module is used for monitoring the real-time use flow of the user equipment and comparing the real-time use flow with a set flow threshold, the communication flow use abnormal control execution module is used for carrying out abnormal flow statistics under the condition that the real-time use flow exceeds the set flow threshold, the key communication opposite-end equipment speed limit analysis module is used for carrying out analysis and speed limit on opposite-end equipment which abnormally uses the communication flow, and the communication equipment response broadcast sub-module is used for promoting the signal quality by utilizing the relay equipment under the condition that the same communication flow is used firstly;
the communication flow demand acquisition module comprises a user equipment network access historical communication flow accumulation submodule and a communication flow usage ordering submodule, wherein the user equipment network access historical communication flow accumulation submodule is used for counting the historical usage flow of user equipment accessed to the current communication network and summarizing the usage flow, and the communication flow usage ordering submodule is used for ordering the communication flow counted and used by different user equipment and sending the ordering result to the communication flow usage threshold limiting module;
the communication traffic use threshold limiting module comprises a communication opposite terminal device real-time traffic value counting submodule and a real-time communication data traffic analyzing submodule, wherein the communication opposite terminal device real-time traffic value counting submodule is used for counting the use traffic of devices which access a current communication network and are communicated with each other in real time and sending the counting data to the real-time communication data traffic analyzing submodule, and the real-time communication data traffic analyzing submodule is used for analyzing the real-time communication traffic in the directional time period of the opposite terminal communication device;
the real-time communication data traffic analysis submodule acquires historical use traffic of user equipment accessed to the current communication network counted by the communication traffic demand acquisition module, sets the historical use traffic to be Z0, and sets the historical use traffic of the user equipment currently accessed to the communication network to be C1、C2、C3、…、Cn-1、CnSetting the ratio of the traffic of different user equipments to beExtracting user equipment with the current user equipment usage flow rate ratio exceeding a set threshold value one, extracting user equipment with the current user equipment usage flow rate ratio exceeding the set threshold value one, setting a directional time Tn, and carrying out traffic flow rate usage statistics on the extracted user equipment to be Cr1、Cr2、Cr3、…、CrnSetting the total real-time traffic threshold of current wireless communication as K, setting the real-time traffic threshold of user equipment in the current communication network as K0, according to the formula:
if the current user equipment use flow meets the formula, the response broadcast submodule of the access communication equipment of the user equipment amplifies the transmission signal, and when the communication flow used by the access communication network user equipment does not meet the formula, the communication flow used by the monitoring user equipment is sent to the communication flow use abnormity control execution module for analysis;
the communication traffic use abnormity control execution module comprises a user equipment excess traffic statistics submodule and a communication opposite terminal equipment data transmission importance marking submodule, wherein the user equipment excess traffic statistics submodule is used for counting communication traffic used by user equipment which does not meet a formula and is analyzed by a real-time communication data traffic analysis submodule, and the communication opposite terminal equipment data transmission importance marking submodule is used for carrying out manual importance identification on the user equipment which exceeds the used communication traffic and marking the more important user equipment;
the key communication opposite-end equipment speed limit analysis module comprises a communication opposite-end equipment communication flow usage statistics submodule, an inter-equipment sectional type speed limit analysis submodule and a manual feedback platform, wherein the communication opposite-end equipment communication flow usage statistics submodule is used for acquiring the excess flow of the opposite-end equipment exceeding a real-time usage flow threshold value, which is counted by the user equipment excess flow statistics submodule, and the inter-equipment sectional type speed limit analysis submodule is used for carrying out sectional type analysis on the excess flow and carrying out sectional type speed limit on the user equipment according to the flow of the user equipment exceeding the usage flow.
2. The communication flow control system using a relay apparatus according to claim 1, characterized in that: the manual feedback platform is used for receiving the data transmission speed which exceeds the user equipment speed limit of the real-time use flow threshold value, feeding the data transmission speed back to manual work for auditing, and adjusting the data transmission speed of the user equipment in real time by an operator according to actual conditions.
3. The communication flow control system using a relay apparatus according to claim 1, characterized in that: the communication equipment response broadcast amplification module comprises a relay equipment access submodule and a data signal quality regulation submodule, wherein the relay equipment access submodule is used for accessing the relay equipment into a communication network, and the data signal quality regulation submodule is used for regulating the communication network according to the accessed relay equipment.
4. A communication flow control method using a relay device, characterized in that:
s1: the method comprises the steps that a communication flow demand acquisition module is used for acquiring and counting communication flow used by current user equipment, a user equipment network access historical communication flow accumulation submodule counts historical used flow of the user equipment accessed to a current communication network, the used flow is collected, a communication flow usage ordering submodule orders the communication flow used by different user equipment, and an ordering result is sent to a communication flow usage threshold limiting module;
s2: monitoring the real-time use flow of user equipment by using a communication flow use threshold limiting module, comparing the real-time use flow with a set flow threshold, carrying out real-time statistics on the use flow of equipment which is accessed to a current communication network and is communicated with each other by a communication opposite-end equipment real-time flow value statistical submodule, sending statistical data to a real-time communication data flow analysis submodule, and analyzing the real-time communication flow in an opposite-end communication equipment directional time period by the real-time communication data flow analysis submodule;
s3: the communication traffic use abnormal control execution module is used for carrying out abnormal traffic statistics under the condition that the real-time use traffic exceeds a set threshold value, the user equipment excess traffic statistics submodule carries out statistics on the communication traffic used by the user equipment which does not meet a formula, which is analyzed by the real-time communication data traffic analysis submodule, and the communication opposite-end equipment data transmission importance marking submodule carries out manual importance identification on the user equipment which exceeds the use communication traffic and marks the more important user equipment;
the real-time communication data traffic analysis submodule acquires historical use traffic of user equipment accessed to the current communication network counted by the communication traffic demand acquisition module, sets the historical use traffic to be Z0, and sets the historical use traffic of the user equipment currently accessed to the communication network to be C1、C2、C3、…、Cn-1、CnSetting the ratio of the traffic of different user equipments to beExtracting the user equipment with the current user equipment using flow rate ratio exceeding a set threshold value one, setting the orientation time Tn, and communicating the extracted user equipmentTraffic usage statistics as Cr1、Cr2、Cr3、…、CrnSetting the total real-time traffic threshold of current wireless communication as K, setting the real-time traffic threshold of user equipment in the current communication network as K0, according to the formula:
if the current user equipment use flow meets the formula, the response broadcast submodule of the access communication equipment of the user equipment amplifies the transmission signal, and when the communication flow used by the access communication network user equipment does not meet the formula, the communication flow used by the monitoring user equipment is sent to the communication flow use abnormity control execution module for analysis;
s4: the method comprises the steps that a key communication opposite-end equipment speed limit analysis module is used for carrying out speed limit after opposite-end equipment which abnormally uses communication flow is analyzed, a communication opposite-end equipment communication flow usage amount statistic submodule acquires the excess flow, which exceeds a real-time usage flow threshold, of opposite-end equipment counted by a user equipment excess flow statistic submodule, a sectional type speed limit analysis submodule among equipment carries out sectional type analysis on the excess flow, sectional type speed limit is carried out on the user equipment according to the excess usage flow of the user equipment, a manual feedback platform is used for receiving the data transmission speed, which exceeds the real-time usage flow threshold, of the user equipment after the speed limit is carried out, the data transmission speed is fed back to manual examination, and an operator combines actual conditions to carry;
s5: the relay equipment access submodule accesses the relay equipment into a communication network, and the data signal quality adjusting submodule adjusts according to the accessed communication network for the relay equipment.
5. The communication flow control method using a relay apparatus according to claim 4, characterized in that: in step S4, the method includes the steps of analyzing an opposite device that abnormally uses communication traffic by using a key communication opposite device speed limit analysis module, limiting speed, acquiring excess traffic of the opposite device exceeding a real-time usage traffic threshold value, which is counted by a user device excess traffic counting submodule, by a communication opposite device communication traffic usage counting submodule, performing sectional analysis on the excess traffic by an inter-device sectional type speed limit analysis submodule, and performing sectional type speed limit on the user device according to the excess traffic of the user device, and further includes the following steps:
setting the flow rate used by the user equipment in real time as R1、R2、R3、…、Rn-1、RnSetting the real-time use flow threshold value of the user equipment in the current communication network as K0, and extracting RnThe user equipment with the flow rate more than K0 sets the communication flow rate of the current user equipment with the excess use as F, and according to the formula: f ═ RnK0, calculating the excess communication flow used by the user equipment as F1、F2、F3、…、Fn-1、FnSetting the normal network speed of the current communication network as N, setting the network speed after speed limiting as Vn, and according to a formula:
and calculating the network speed limited after the different user equipment uses the excess flow, and limiting the speed of the different user equipment after using the excess flow, so as to ensure that the network speed of the user equipment which does not use the excess flow is normal.
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