阅读说明：本技术 周边传动浓密机的无线通信系统 (Wireless communication system of peripheral transmission thickener ) 是由 周洋 杨冬 殷玉成 于 2020-08-04 设计创作，主要内容包括：本发明公开了周边传动浓密机的无线通信系统,包括采集模块、识别模块、分析模块、判定模块、调整模块、发送模块和显示屏；所述采集模块用于采集周边传动浓密机传输相关的通讯信息,并将通讯信息传输至识别模块；所述识别模块接收通讯信息,并对其进行识别操作,得到通讯类型数据、通讯量数据、通讯时间数据、通讯信号数据、通讯数据、接收数据和通讯次数数据,并将其一同传输至分析模块,本发明通过判定模块的设置,对分析模块的相关数据进行判定计算,从而计算出通讯时最高效率所对应的最佳通讯量,节省人为判定所消耗的时间,增加判定的准备性,从而提高工作效率。(The invention discloses a wireless communication system of a peripheral transmission thickener, which comprises an acquisition module, an identification module, an analysis module, a judgment module, an adjustment module, a sending module and a display screen, wherein the acquisition module is used for acquiring a data packet; the acquisition module is used for acquiring communication information related to transmission of the peripheral transmission thickener and transmitting the communication information to the identification module; the identification module receives the communication information, performs identification operation on the communication information to obtain communication type data, communication quantity data, communication time data, communication signal data, communication data, received data and communication frequency data, and transmits the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the received data and the communication frequency data to the analysis module.)

1. The wireless communication system of the peripheral transmission thickener is characterized by comprising an acquisition module, an identification module, an analysis module, a judgment module, an adjustment module, a sending module and a display screen;

the acquisition module is used for acquiring communication information related to transmission of the peripheral transmission thickener and transmitting the communication information to the identification module;

the identification module receives the communication information, performs identification operation on the communication information to obtain communication type data, communication quantity data, communication time data, communication signal data, communication data, received data and communication frequency data, and transmits the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the received data and the communication frequency data to the analysis module;

the analysis module is used for analyzing the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the receiving data and the communication frequency data to obtain an influence factor beta 1, an influence factor beta 2, an influence factor beta 3 and a speed average value, and transmitting the influence factors beta 1, the influence factor beta 2, the influence factor beta 3 and the speed average value to the judgment module;

the determination module is used for performing determination operation on the influence factor beta 1, the influence factor beta 2, the influence factor beta 3 and the speed mean value together, and the specific operation process of the determination operation is as follows:

h1: an abnormal quantity preset threshold value M is set and is brought into a calculation formula together with an influence factor beta 1, an influence factor beta 2, an influence factor beta 3 and a speed average value:thereby calculating the optimal communication quantity, wherein M represents an abnormal quantity preset threshold, TL2 represents the optimal communication quantity, and r represents the influence deviation correction preset factor of the communication quantity and the speed average value on the abnormal quantity preset threshold;

h2: acquiring communication quantity data, composing and dividing the communication quantity data and the optimal communication quantity, performing communication transmission division on the communication quantity data according to the optimal communication quantity, calibrating a first optimal communication quantity value in the communication quantity data as first communication transmission data, calibrating a second optimal communication quantity value in the communication quantity data as second communication transmission data, and setting a communication transmission sequence by analogy;

h3: transmitting the communication transmission sequence to an adjusting module;

the adjusting module divides the communication data according to the communication transmission sequence, monitors the communication data in real time, and sends the communication data before transmission to the display screen through the sending module when the communication data exceeds the set communication transmission sequence.

2. The wireless communication system of peripheral transmission thickeners of claim 1, wherein the specific operation procedure of the identification operation is:

the method comprises the following steps: the method comprises the steps of obtaining communication information, calibrating the amount of communication data of transmission thickeners at the inner periphery of the communication system into communication amount data, marking the communication amount data as TLi, i is 1, 2, 3.. No. n1, calibrating the time consumed by the communication data of the transmission thickeners at the inner periphery of the communication system into communication time data, marking the communication time data as SJi, i is 1, 2, 3.. No. n1, calibrating the communication types of the transmission thickeners at the inner periphery of the communication system into communication type data, marking the communication type data as LXi, i is 1, 2, 3.. No. n1, calibrating the signal strength of the transmission thickeners at the inner periphery of the communication system into communication signal data, marking the communication signal data as XHi, i is 1, 2, 3.. n1, calibrating the data sent by the transmission thickeners at the inner periphery of the communication system into communication data, and marking the communication data as TSI, n1, calibrating data received after the transmission thickeners on the inner periphery of the transmission thickeners as received data, marking the received data as JSi, wherein i is 1, 2, 3.. No. n1, calibrating the communication times of the transmission thickeners on the inner periphery of the transmission thickeners as communication time data, and marking the communication time data as TCi, i is 1, 2, 3.. No. n 1;

step two: the method comprises the steps of obtaining communication volume data, communication time data, communication type data, communication signal data, communication data, receiving data and communication frequency data, and carrying out division marking on the communication volume data, the communication time data, the communication signal data, the communication data, the receiving data and the communication frequency data according to the communication type data.

3. The wireless communication system of peripheral transmission thickeners according to claim 1, wherein the specific operation procedure of the analyzing operation is:

k1: obtaining communication type data, and extracting corresponding communication according to the communication type dataAnd carrying out data processing on the traffic data and the communication time data, and bringing the data into a calculation formula together: the speed is the quantity/time, so that the transmission speed during communication, namely the communication speed is calculated and marked as Vi, and the communication speed is substituted into the calculation formula:wherein PVi is expressed as an average value of communication speeds, namely a speed average value;

k2: the method comprises the following steps of obtaining communication quantity data and communication signal data corresponding to communication type data, establishing a virtual rectangular coordinate system, marking the numerical values of the communication quantity data and the communication signal data at each time in the virtual rectangular coordinate system, selecting the communication quantity data when the communication signals reach the best, marking the communication quantity data as stable communication quantity data, and bringing the communication signals and the communication quantity data into a calculation formula together: XHi, TLi beta 1, thereby calculating the influence factor beta 1 of the communication volume data on the communication signal;

k3: the method comprises the steps of obtaining communication data, marking each communication character in the communication data into a communication character, obtaining receiving data, marking each character received in the communication data into a receiving character, and comparing the communication characters with the receiving characters one by one, wherein the method specifically comprises the following steps: matching each communication character with a received character one by one, judging that the inconsistent character is in error communication when the matched characters are inconsistent, marking the inconsistent character as an abnormal character, simultaneously generating an abnormal signal, and judging that the character is in good communication when the matched characters are consistent, and generating a good signal;

k4: acquiring communication frequency data corresponding to communication type data, extracting abnormal signals and intact signals in the communication frequency data of each time, identifying the abnormal signals, judging that abnormal quantity needs to be calculated in communication transmission when the abnormal signals are identified, automatically extracting the quantity of corresponding abnormal characters, calibrating the abnormal quantity data to be abnormal quantity data, judging that the communication is normal when the intact signals are identified, and not needing to calculate the abnormal quantity;

k5: extracting abnormal data, and bringing the abnormal data and the total number data of the characters in the communication data into a calculation formula: ZBi ═ YCi/ZFi, where ZBi denotes the proportion of the abnormal amount data in the total number of characters data, i.e., the proportion value, YCi denotes the abnormal amount data, and ZFi denotes the total number of characters data;

k6: extracting an occupation ratio value, comparing the occupation ratio value with an occupation ratio preset threshold value, selecting an occupation ratio value larger than the occupation ratio preset threshold value and an occupation ratio value smaller than or equal to the occupation ratio preset threshold value, respectively extracting corresponding communication speed data, marking the communication speed and abnormal data in a virtual rectangular coordinate system, and bringing the communication speed and the abnormal data into a calculation formula: YCi ═ Vi × β 2, thereby calculating the value of the factor β 2 affecting the abnormal amount data by the communication speed;

k7: and extracting abnormal data, marking the abnormal data and the communication signal in a virtual rectangular coordinate system, and calculating an influence factor beta 3 of the communication signal on the abnormal data according to the same calculation method of the influence factor beta 2 of the communication speed on the abnormal data.

Technical Field

The invention relates to the technical field of wireless communication, in particular to a wireless communication system of a peripheral transmission thickener.

Background

A communication system is a generic term for a technical system for performing an information transmission process. Modern communication systems are implemented primarily by means of propagation of electromagnetic waves in free space, known as wireless communication systems, or transmission mechanisms in a guided medium, known as wired communication systems.

At present, for data communication of a wireless communication system of a peripheral transmission thickener, a detailed system does not accurately analyze the quality and effect of the communication, so that the communication of some data does not achieve the expected effect, and the working efficiency of equipment is reduced.

Disclosure of Invention

The invention aims to provide a wireless communication system of a peripheral transmission thickener, which divides and calibrates collected communication information through the arrangement of an identification module, analyzes data after division and calibration according to an analysis module so as to calculate corresponding numerical values, increases the accuracy of the data, increases the persuasive force of the data, saves the time consumed by data analysis and improves the working efficiency, judges and calculates the related data of the analysis module through the arrangement of a judgment module so as to calculate the optimal communication quantity corresponding to the highest efficiency during communication, saves the time consumed by artificial judgment, increases the preparation of judgment so as to improve the working efficiency, performs communication regulation according to the data of the judgment module through the arrangement of an adjustment module so as to improve the communication efficiency and transmits unqualified communication data to a display screen, avoid the effect image operation of communication.

The purpose of the invention can be realized by the following technical scheme: the wireless communication system of the peripheral transmission thickener comprises an acquisition module, an identification module, an analysis module, a judgment module, an adjustment module, a sending module and a display screen;

the acquisition module is used for acquiring communication information related to transmission of the peripheral transmission thickener and transmitting the communication information to the identification module;

the identification module receives the communication information, performs identification operation on the communication information to obtain communication type data, communication quantity data, communication time data, communication signal data, communication data, received data and communication frequency data, and transmits the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the received data and the communication frequency data to the analysis module;

the analysis module is used for analyzing the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the receiving data and the communication frequency data to obtain an influence factor beta 1, an influence factor beta 2, an influence factor beta 3 and a speed average value, and transmitting the influence factors beta 1, the influence factor beta 2, the influence factor beta 3 and the speed average value to the judgment module;

the determination module is used for performing determination operation on the influence factor beta 1, the influence factor beta 2, the influence factor beta 3 and the speed mean value together, and the specific operation process of the determination operation is as follows:

h1: an abnormal quantity preset threshold value M is set and is brought into a calculation formula together with an influence factor beta 1, an influence factor beta 2, an influence factor beta 3 and a speed average value:

thereby calculating the optimal communication quantity, wherein M represents an abnormal quantity preset threshold, TL2 represents the optimal communication quantity, and r represents the influence deviation correction preset factor of the communication quantity and the speed average value on the abnormal quantity preset threshold;

h2: acquiring communication quantity data, composing and dividing the communication quantity data and the optimal communication quantity, performing communication transmission division on the communication quantity data according to the optimal communication quantity, calibrating a first optimal communication quantity value in the communication quantity data as first communication transmission data, calibrating a second optimal communication quantity value in the communication quantity data as second communication transmission data, and setting a communication transmission sequence by analogy;

h3: transmitting the communication transmission sequence to an adjusting module;

the adjusting module divides the communication data according to the communication transmission sequence, monitors the communication data in real time, and sends the communication data before transmission to the display screen through the sending module when the communication data exceeds the set communication transmission sequence.

As a further improvement of the invention: the specific operation process of the identification operation comprises the following steps:

the method comprises the following steps: the method comprises the steps of obtaining communication information, calibrating the amount of communication data of peripheral transmission thickeners in the communication information as communication amount data, marking the communication amount data as TL i, i is 1, 2, 3.. n1, calibrating the time consumed by the communication data of the peripheral transmission thickeners in the communication information as communication time data, marking the communication time data as SJ i, i is 1, 2, 3.. n1, calibrating the communication types of the peripheral transmission thickeners in the communication information as communication type data, marking the communication type data as LX i, i is 1, 2, 3.. n1, calibrating the signal strength of the peripheral transmission thickeners in the communication information as communication signal data, marking the communication signal data as XH i, i is 1, 2, 3.. n1, and calibrating the data sent by the peripheral transmission thickeners in the communication information as communication data, the communication data is marked as TS i, i is 1, 2, 3.. No. n1, the data received after the transmission thickeners on the inner periphery of the communication data are marked as received data, the received data are marked as JS i, i is 1, 2, 3.. No. n1, the communication times of the transmission thickeners on the inner periphery of the communication data are marked as communication time data, and the communication time data are marked as TCi, i is 1, 2, 3.. No. n 1;

step two: the method comprises the steps of obtaining communication volume data, communication time data, communication type data, communication signal data, communication data, receiving data and communication frequency data, and carrying out division marking on the communication volume data, the communication time data, the communication signal data, the communication data, the receiving data and the communication frequency data according to the communication type data.

As a further improvement of the invention: the specific operation process of the analysis operation is as follows:

k1: and acquiring communication type data, extracting corresponding communication quantity data and communication time data according to the communication type data, and bringing the communication quantity data and the communication time data into a calculation formula together: the speed is the quantity/time, so that the transmission speed during communication, namely the communication speed is calculated and marked as Vi, and the communication speed is substituted into the calculation formula:

wherein PVi is expressed as an average value of communication speeds, namely a speed average value;

k2: the method comprises the following steps of obtaining communication quantity data and communication signal data corresponding to communication type data, establishing a virtual rectangular coordinate system, marking the numerical values of the communication quantity data and the communication signal data at each time in the virtual rectangular coordinate system, selecting the communication quantity data when the communication signals reach the best, marking the communication quantity data as stable communication quantity data, and bringing the communication signals and the communication quantity data into a calculation formula together: XH i ═ TL i ═ beta 1, thus calculate the influence factor beta 1 of the traffic data to the communication signal;

k3: the method comprises the steps of obtaining communication data, marking each communication character in the communication data into a communication character, obtaining receiving data, marking each character received in the communication data into a receiving character, and comparing the communication characters with the receiving characters one by one, wherein the method specifically comprises the following steps: matching each communication character with a received character one by one, judging that the inconsistent character is in error communication when the matched characters are inconsistent, marking the inconsistent character as an abnormal character, simultaneously generating an abnormal signal, and judging that the character is in good communication when the matched characters are consistent, and generating a good signal;

k4: acquiring communication frequency data corresponding to communication type data, extracting abnormal signals and intact signals in the communication frequency data of each time, identifying the abnormal signals, judging that the communication transmission needs further analysis when the abnormal signals are identified, automatically extracting the number of the corresponding abnormal characters, calibrating the abnormal characters as abnormal data, and judging that the communication is normal when the intact signals are identified without further analysis;

k5: extracting abnormal data, and bringing the abnormal data and the total number data of the characters in the communication data into a calculation formula: ZBi, YC i/ZF i, where ZBi denotes the proportion of the abnormal amount data in the total number of characters data, i.e., the proportion value, YC i denotes the abnormal amount data, and ZF i denotes the total number of characters data;

k6: extracting an occupation ratio value, comparing the occupation ratio value with an occupation ratio preset threshold value, selecting an occupation ratio value larger than the occupation ratio preset threshold value and an occupation ratio value smaller than or equal to the occupation ratio preset threshold value, respectively extracting corresponding communication speed data, marking the communication speed and abnormal data in a virtual rectangular coordinate system, and bringing the communication speed and the abnormal data into a calculation formula: YC i is Vi beta 2, so that the value of an influence factor beta 2 of the communication speed on the abnormal data is calculated;

k7: and extracting abnormal data, marking the abnormal data and the communication signal in a virtual rectangular coordinate system, and calculating an influence factor beta 3 of the communication signal on the abnormal data according to the same calculation method of the influence factor beta 2 of the communication speed on the abnormal data.

The invention has the beneficial effects that:

(1) collecting related communication information transmitted by the peripheral transmission thickener through the collection module, and transmitting the communication information to the identification module; the identification module receives the communication information, performs identification operation on the communication information to obtain communication type data, communication quantity data, communication time data, communication signal data, communication data, received data and communication frequency data, and transmits the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the received data and the communication frequency data to the analysis module; the analysis module analyzes and operates the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the receiving data and the communication frequency data to obtain an influence factor beta 1, an influence factor beta 2, an influence factor beta 3 and a speed average value, and transmits the influence factors beta 1, the influence factor beta 2, the influence factor beta 3 and the speed average value to the judgment module; through the setting of identification module, divide the demarcation to the communication information of gathering to carry out data analysis according to analysis module to dividing the data after the demarcation, thereby calculate corresponding numerical value, increase the accuracy nature of data, increase the persuasive dynamics of data, save the time that data analysis consumed, improve work efficiency.

(2) The determination module performs determination operation on the influence factor beta 1, the influence factor beta 2, the influence factor beta 3 and the speed mean value together, and the specific operation process of the determination operation is as follows: an abnormal quantity preset threshold value M is set and is brought into a calculation formula together with an influence factor beta 1, an influence factor beta 2, an influence factor beta 3 and a speed average value:

thereby calculating the optimal communication volume, wherein M is represented as an abnormal volume preset threshold, TL2 is represented asThe optimal communication quantity r is represented as an influence deviation correction preset factor of the communication quantity and the speed mean value on the abnormal quantity preset threshold; acquiring communication quantity data, composing and dividing the communication quantity data and the optimal communication quantity, performing communication transmission division on the communication quantity data according to the optimal communication quantity, calibrating a first optimal communication quantity value in the communication quantity data as first communication transmission data, calibrating a second optimal communication quantity value in the communication quantity data as second communication transmission data, and setting a communication transmission sequence by analogy; through the setting of the judging module, the related data of the analyzing module is judged and calculated, so that the optimal communication quantity corresponding to the highest efficiency in communication is calculated, the time consumed by artificial judgment is saved, the judgment readiness is increased, and the working efficiency is improved.

(3) The communication quantity data is divided by the adjusting module according to the communication transmission sequence, meanwhile, the adjusting module also monitors the communication data in real time, and when the communication quantity exceeds the set communication transmission sequence, the communication data before transmission is sent to the display screen through the sending module; through the setting of adjustment module, carry out the communication according to the data of judging the module and adjust to improve the efficiency of communication, and with unqualified communication data transmission to display screen, avoid the effect image operation of communication.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a system block diagram of 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, the present invention is a wireless communication system of a peripheral transmission thickener, including an acquisition module, an identification module, an analysis module, a determination module, an adjustment module, a transmission module, and a display screen;

the acquisition module is used for acquiring communication information related to transmission of the peripheral transmission thickener and transmitting the communication information to the identification module;

the identification module receives the communication information and carries out identification operation on the communication information, and the specific operation process of the identification operation is as follows:

the method comprises the following steps: the method comprises the steps of obtaining communication information, calibrating the amount of communication data of peripheral transmission thickeners in the communication information as communication amount data, marking the communication amount data as TL i, i is 1, 2, 3.. n1, calibrating the time consumed by the communication data of the peripheral transmission thickeners in the communication information as communication time data, marking the communication time data as SJ i, i is 1, 2, 3.. n1, calibrating the communication types of the peripheral transmission thickeners in the communication information as communication type data, marking the communication type data as LX i, i is 1, 2, 3.. n1, calibrating the signal strength of the peripheral transmission thickeners in the communication information as communication signal data, marking the communication signal data as XH i, i is 1, 2, 3.. n1, and calibrating the data sent by the peripheral transmission thickeners in the communication information as communication data, the communication data is marked as TS i, i is 1, 2, 3.. No. n1, the data received after the transmission thickeners on the inner periphery of the communication data are marked as received data, the received data are marked as JS i, i is 1, 2, 3.. No. n1, the communication times of the transmission thickeners on the inner periphery of the communication data are marked as communication time data, and the communication time data are marked as TCi, i is 1, 2, 3.. No. n 1;

step two: acquiring communication quantity data, communication time data, communication type data, communication signal data, communication data, receiving data and communication frequency data, and carrying out division marking on the communication quantity data, the communication time data, the communication signal data, the communication data, the receiving data and the communication frequency data according to the communication type data;

step three: transmitting the marked communication type data, communication quantity data, communication time data, communication signal data, communication data, receiving data and communication frequency data in the second step to an analysis module;

the analysis module is used for analyzing the communication type data, the communication volume data, the communication time data, the communication signal data, the communication data, the receiving data and the communication frequency data, and the specific operation process of the analysis operation is as follows:

k1: and acquiring communication type data, extracting corresponding communication quantity data and communication time data according to the communication type data, and bringing the communication quantity data and the communication time data into a calculation formula together: the speed is the quantity/time, so that the transmission speed during communication, namely the communication speed is calculated and marked as Vi, and the communication speed is substituted into the calculation formula:

wherein PVi is expressed as an average value of communication speeds, namely a speed average value;

k2: the method comprises the following steps of obtaining communication quantity data and communication signal data corresponding to communication type data, establishing a virtual rectangular coordinate system, marking the numerical values of the communication quantity data and the communication signal data at each time in the virtual rectangular coordinate system, selecting the communication quantity data when the communication signals reach the best, marking the communication quantity data as stable communication quantity data, and bringing the communication signals and the communication quantity data into a calculation formula together: XH i ═ TL i ═ beta 1, thus calculate the influence factor beta 1 of the traffic data to the communication signal;

k3: the method comprises the steps of obtaining communication data, marking each communication character in the communication data into a communication character, obtaining receiving data, marking each character received in the communication data into a receiving character, and comparing the communication characters with the receiving characters one by one, wherein the method specifically comprises the following steps: matching each communication character with a received character one by one, judging that the inconsistent character is in error communication when the matched characters are inconsistent, marking the inconsistent character as an abnormal character, simultaneously generating an abnormal signal, and judging that the character is in good communication when the matched characters are consistent, and generating a good signal;

k4: acquiring communication frequency data corresponding to communication type data, extracting abnormal signals and intact signals in the communication frequency data of each time, identifying the abnormal signals, judging that the communication transmission needs further analysis when the abnormal signals are identified, automatically extracting the number of the corresponding abnormal characters, calibrating the abnormal characters as abnormal data, and judging that the communication is normal when the intact signals are identified without further analysis;

k5: extracting abnormal data, and bringing the abnormal data and the total number data of the characters in the communication data into a calculation formula: ZBi, YC i/ZF i, where ZBi denotes the proportion of the abnormal amount data in the total number of characters data, i.e., the proportion value, YC i denotes the abnormal amount data, and ZF i denotes the total number of characters data;

k6: extracting an occupation ratio value, comparing the occupation ratio value with an occupation ratio preset threshold value, selecting an occupation ratio value larger than the occupation ratio preset threshold value and an occupation ratio value smaller than or equal to the occupation ratio preset threshold value, respectively extracting corresponding communication speed data, marking the communication speed and abnormal data in a virtual rectangular coordinate system, and bringing the communication speed and the abnormal data into a calculation formula: YC i is Vi beta 2, so that the value of an influence factor beta 2 of the communication speed on the abnormal data is calculated;

k7: extracting abnormal data, marking the abnormal data and the communication signal in a virtual rectangular coordinate system, and calculating an influence factor beta 3 of the communication signal on the abnormal data according to the same calculation method of the communication speed on the influence factor beta 2 of the abnormal data;

k8: the influence factor beta 1, the influence factor beta 2, the influence factor beta 3 and the speed mean value are transmitted to a judging module together;

the determination module is used for performing determination operation on the influence factor beta 1, the influence factor beta 2, the influence factor beta 3 and the speed mean value together, and the specific operation process of the determination operation is as follows:

h1: an abnormal quantity preset threshold value M is set and is brought into a calculation formula together with an influence factor beta 1, an influence factor beta 2, an influence factor beta 3 and a speed average value:

thereby calculating the optimal communication quantity, wherein M represents an abnormal quantity preset threshold, TL2 represents the optimal communication quantity, and r represents the influence deviation correction preset factor of the communication quantity and the speed average value on the abnormal quantity preset threshold;

h2: acquiring communication quantity data, composing and dividing the communication quantity data and the optimal communication quantity, performing communication transmission division on the communication quantity data according to the optimal communication quantity, calibrating a first optimal communication quantity value in the communication quantity data as first communication transmission data, calibrating a second optimal communication quantity value in the communication quantity data as second communication transmission data, and setting a communication transmission sequence by analogy;

h3: transmitting the communication transmission sequence to an adjusting module;

the adjusting module divides the communication data according to the communication transmission sequence, monitors the communication data in real time, and sends the communication data before transmission to the display screen through the sending module when the communication data exceeds the set communication transmission sequence.

The invention collects the related communication information transmitted by the peripheral transmission thickener through the collection module and transmits the communication information to the identification module; the identification module receives the communication information, performs identification operation on the communication information to obtain communication type data, communication quantity data, communication time data, communication signal data, communication data, received data and communication frequency data, and transmits the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the received data and the communication frequency data to the analysis module; the analysis module analyzes and operates the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the receiving data and the communication frequency data to obtain an influence factor beta 1, an influence factor beta 2, an influence factor beta 3 and a speed average value, and transmits the influence factors beta 1, the influence factor beta 2, the influence factor beta 3 and the speed average value to the judgment module; through the setting of identification module, divide the demarcation to the communication information of gathering to carry out data analysis according to analysis module to dividing the data after the demarcation, thereby calculate corresponding numerical value, increase the accuracy nature of data, increase the persuasive dynamics of data, save the time that data analysis consumed, improve work efficiency.

Meanwhile, the judgment module is used for judging the influence factor beta 1, the influence factor beta 2, the influence factor beta 3 and the speed mean value together, and the specific operation process of the judgment operation is as follows: setting an abnormal quantity preset threshold M, and comparing the abnormal quantity preset threshold M with an influence factor beta 1, an influence factor beta 2, an influence factor beta 3 and an influence factor beta 3The velocity averages are taken together into the calculation:

thereby calculating the optimal communication quantity, wherein M represents an abnormal quantity preset threshold, TL2 represents the optimal communication quantity, and r represents the influence deviation correction preset factor of the communication quantity and the speed average value on the abnormal quantity preset threshold; acquiring communication quantity data, composing and dividing the communication quantity data and the optimal communication quantity, performing communication transmission division on the communication quantity data according to the optimal communication quantity, calibrating a first optimal communication quantity value in the communication quantity data as first communication transmission data, calibrating a second optimal communication quantity value in the communication quantity data as second communication transmission data, and setting a communication transmission sequence by analogy; through the setting of the judging module, the related data of the analyzing module is judged and calculated, so that the optimal communication quantity corresponding to the highest efficiency in communication is calculated, the time consumed by artificial judgment is saved, the judgment readiness is increased, and the working efficiency is improved.

Meanwhile, the communication quantity data is divided through the adjusting module according to the communication transmission sequence, meanwhile, the adjusting module also monitors the communication data in real time, and when the communication quantity exceeds the set communication transmission sequence, the communication data before transmission is sent to a display screen through the sending module; through the setting of adjustment module, carry out the communication according to the data of judging the module and adjust to improve the efficiency of communication, and with unqualified communication data transmission to display screen, avoid the effect image operation of communication

When the invention works, the acquisition module acquires the communication information related to the transmission of the peripheral transmission thickener and transmits the communication information to the identification module; the identification module receives the communication information, performs identification operation on the communication information to obtain communication type data, communication quantity data, communication time data, communication signal data, communication data, received data and communication frequency data, and transmits the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the received data and the communication frequency data to the analysis module; the analysis module analyzes and operates the communication type data, the communication quantity data, the communication time data, the communication signal data, the communication data, the receiving data and the communication frequency data to obtain influence factorsThe beta 1, the influence factor beta 2, the influence factor beta 3 and the speed mean value are transmitted to a judging module together; the judgment module carries out judgment operation on the influence factor beta 1, the influence factor beta 2, the influence factor beta 3 and the speed mean value together, and the specific operation process of the judgment operation is as follows: an abnormal quantity preset threshold value M is set and is brought into a calculation formula together with an influence factor beta 1, an influence factor beta 2, an influence factor beta 3 and a speed average value:thereby calculating the optimal communication quantity, wherein M represents an abnormal quantity preset threshold, TL2 represents the optimal communication quantity, and r represents the influence deviation correction preset factor of the communication quantity and the speed average value on the abnormal quantity preset threshold; acquiring communication quantity data, composing and dividing the communication quantity data and the optimal communication quantity, performing communication transmission division on the communication quantity data according to the optimal communication quantity, calibrating a first optimal communication quantity value in the communication quantity data as first communication transmission data, calibrating a second optimal communication quantity value in the communication quantity data as second communication transmission data, and setting a communication transmission sequence by analogy; transmitting the communication transmission sequence to an adjusting module; the adjusting module divides the communication data according to the communication transmission sequence, and meanwhile, the adjusting module monitors the communication data in real time, and when the communication quantity exceeds the set communication transmission sequence, the communication data before transmission is sent to the display screen through the sending module.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.