CN115037334B - Carrier communication on-line management system based on power line - Google Patents

Abstract

The invention discloses a carrier communication on-line management system based on a power line, which is used for solving the problems that when the load of the power line is heavy, the transmission distance is short and the received carrier signal is weak; the system comprises a carrier communication module, a data acquisition module, a communication switching module, a server, a registration login module, a data analysis module, a switching calculation module, a terminal distribution module and a maintenance distribution module; the invention calculates the transfer authority value of the user through the terminal distribution module, when the transfer authority value is larger than the set threshold value, the transfer communication module transmits between the carrier to be transferred and the carrier to be received through the mobile phone terminal of the user, and selects the electric personnel with the largest distribution maintenance value to maintain the carrier to be maintained; and the power carrier is conveniently and reasonably maintained by selecting the corresponding power personnel through calculating the distribution maintenance value of the power personnel.

Description

Carrier communication on-line management system based on power line

Technical Field

The invention relates to the technical field of carrier communication, in particular to a carrier communication on-line management system based on a power line.

Background

The carrier communication is a telephone multi-way communication system based on the frequency division multiplexing technology, and belongs to the standard of classical analog communication. The power carrier communication is a communication method specific to a power system, and is a technique for transmitting analog or digital signals at a high speed by a carrier method using an existing power line. The biggest characteristic is that the network is not required to be erected again, and the data transmission can be carried out only by the electric wires;

the power line causes a high reduction in the carrier signal. When the load on the power line is heavy, the line impedance can reach below 1 ohm, resulting in high clipping of the carrier signal. In practice, when the power line is empty, the point-to-point carrier signal can be transmitted to several kilometers. But can only transmit tens of meters when the load on the power line is heavy.

Disclosure of Invention

The invention aims at providing a carrier communication on-line management system based on a power line, wherein a user clicks a red line between a carrier to be switched and a carrier to be received on line, a terminal distribution module calculates a switching authority value of the user, when the switching authority value is larger than a set threshold value, a switching communication module transmits the carrier to be switched and the carrier to be received through a mobile phone terminal of the user, and a maintenance distribution module acquires power personnel information and distributes the carrier to be maintained to corresponding power personnel for maintenance; obtaining an allocation maintenance value of the electric personnel by utilizing a formula; selecting an electric power personnel with the largest distribution maintenance value to maintain the carrier to be maintained; the maintenance value calculation is carried out on the electric personnel, so that the corresponding electric personnel can be selected reasonably to maintain the electric carrier;

the technical problems to be solved by the invention are as follows:

1. how to click the red line on line and calculate the transfer authority value of the user by the user, so that the carrier is established to carry out data transmission with the mobile phone terminal of the user by the transfer authority value, the transfer of data is realized, and the problems that the transmission distance is shorter and the received carrier signal is weaker when the load of the power line is heavier are solved;

the aim of the invention can be achieved by the following technical scheme: the carrier communication on-line management system based on the power line comprises a carrier communication module, a data acquisition module, a communication switching module, a server, a registration login module, a data analysis module, a switching calculation module, a terminal distribution module and a maintenance distribution module;

the carrier communication module is used for the power line to perform data carrier communication by the power line; the carrier communication module comprises a plurality of power carriers and power lines; the power line is communicated with the power line through a plurality of power line carriers; and the power line between two adjacent power line carriers is marked as a transmission line; the data acquisition module is used for acquiring power carrier information and power line information and sending the power carrier information and the power line information to the server for storage; the data analysis module is used for analyzing the power carrier information and the power line information, and the specific analysis steps are as follows:

step one: when the power line is transmitted to the corresponding power line, the corresponding power line receives the carrier signal intensity;

step two: when the intensity of the received carrier signal is lower than a set threshold value, marking the power line carrier for transmitting the carrier signal as a carrier to be switched; marking a power carrier for receiving the carrier signal as a carrier to be received;

step three: the data analysis module sends the carrier to be switched and the carrier to be received into the server; the server connects the positions of the carrier to be switched and the carrier to be received through a red line;

the registration login module is used for submitting user information and electric personnel information through a mobile phone terminal and registering, and sending the user information and the electric personnel information which are successfully registered to a server for storage; the user accesses a red line between the carrier to be switched and the carrier to be received in the server through the mobile phone terminal, and the server generates an allocation instruction and sends the allocation instruction and user information to the terminal allocation module; the terminal allocation module receives the allocation instruction and carries out calculation processing on the user information, and the specific processing steps are as follows:

s1: setting a user record as Ri, i=1, … …, n;

s2: the distance between the positioning position of the mobile phone terminal of the user and the carrier to be switched and the distance between the positioning position of the mobile phone terminal of the user and the carrier to be received are obtained, and are respectively marked as D1 _Ri 、D2 _Ri ；

S3: setting the corresponding integral value of the mobile communication category to be Jk, k=1, 2, and 3; wherein J1 represents an integrated value of the mobile communication category 3G; j2 represents an integrated value of mobile communication category 4G; j3 represents an integrated value of the mobile communication category 5G; and J1< J2< J3;

s4: matching the mobile communication type corresponding to the user mobile phone terminal with the integral value corresponding to the mobile communication type to obtain a corresponding integral value, and marking the integral value as Jk _Ri ；

S5: preset mobile phone values corresponding to the mobile phone models are set as Wm, m=1 and ……, n; matching the mobile phone model of the user with a preset mobile phone value to obtain a corresponding preset mobile phone value, and marking the corresponding preset mobile phone value as Wm _Ri ；

S6: acquiring the using time of the mobile phone terminal of the user through the purchase time of the user and the current time of the system, and marking the using time as T _Ri ；

S7: using the formulaObtaining a transfer authority value PF of a user _Ri The method comprises the steps of carrying out a first treatment on the surface of the Wherein lambda is a preset correction factor and takes a value of 0.8365489; v1, v2, v3, v4 and v5 are all preset proportionality coefficients; u (U) _Ri A switching value for the user;

s8: setting the length of a transmission line between a carrier to be switched and a carrier to be received as C1; the corresponding preset transmission value of the transmission line is marked as YC; when PF (physical filter) _Ri >Yc+c1 x v6; the terminal distribution module generates a transfer instruction and sends the transfer instruction and user information to the communication transfer module; wherein v6 is a preset scaling factor; when PF (physical filter) _Ri Let yc+c1 x v6; generating a switching failure instruction and sending the switching failure instruction to a mobile phone terminal of the user;

the transfer communication module is used for transmitting between the carrier to be transferred and the carrier to be received through the mobile phone terminal of the user.

The specific process of transmission by the transfer communication module is as follows:

a1: the switching communication module is used for carrying out communication connection on a mobile phone terminal of a user, a carrier to be switched and a carrier to be received; the switching communication module counts initial connection time of communication connection between a mobile phone terminal of a user and a carrier to be switched and a carrier to be received;

a2: the carrier to be switched sends the transmitted data to the carrier to be received through the mobile phone terminal of the user; meanwhile, the total number of times of transmission of the user is increased once;

a3: the switching communication module controls the carrier to be switched to send carrier signals to the carrier to be received at regular time, and when the intensity of the carrier signals received by the carrier to be received is greater than or equal to a set threshold value, the switching communication module controls the user mobile phone terminal to be connected with the carrier to be switched and the carrier to be received in a disconnected communication mode; meanwhile, counting disconnection time; the carrier signal transmission is carried out between the carrier to be switched and the carrier to be received through a transmission line, and meanwhile, a disconnection instruction is generated;

a4: the switching communication module switches the initial connection time, the total number of times of transmission of the user, the disconnection time, the disconnection instruction, the carrier to be switched and the carrier to be received to the server; and after receiving the disconnection instruction, the server connects the position between the carrier to be switched and the carrier to be received through a blue line.

The switching calculation module is used for calculating a switching value of a user, and the specific calculation steps are as follows:

SS1: setting the total transmission number of the user as Z _Ri Acquiring a single output duration of a user through initial connection time and disconnection time of the user each time, and marking the single output duration as E;

SS2: obtaining a user single transmission value F by using a formula F=E=v7; wherein v7 is a preset scaling factor;

SS3: accumulating and summing the single transmission values of the users to obtain the total transmission integral of the users, and marking the total transmission integral as LF _Ri ；

SS4: using formula U _Ri =Z _Ri *v8+LF _Ri * v9 obtaining the user switching value U _Ri The method comprises the steps of carrying out a first treatment on the surface of the Wherein v8 and v9 are both preset scaling factors.

The power carrier information comprises the position of the power carrier, power carrier supply voltage data and alarm data and the intensity of a received carrier signal; the power line information includes a length of the transmission line; the user information comprises names, mobile phone numbers, mobile phone terminal models, mobile phone terminal positioning positions, purchasing time and mobile communication types, wherein the mobile communication types comprise 3G, 4G and 5G; the electric personnel information comprises names, mobile phone numbers, job entering time and mobile phone terminal positioning positions;

the power carrier is provided with an acquisition unit for acquiring alarm sounds of an alarm on the power carrier and an analysis unit for matching the alarm sounds; the acquisition unit sends the acquired alarm sound to the analysis unit; the analysis unit matches the collected alarm sound with the sound stored in the analysis unit; when the corresponding internal storage sound is matched, marking the power carrier as a carrier to be maintained;

the power carrier is also provided with a voltage sensor for collecting the power supply voltage of the power carrier; when the voltage sensor is lower than a set threshold value, marking the power carrier as a carrier to be maintained; and meanwhile, the position of the carrier to be maintained is marked as alarm data.

The maintenance distribution module is used for acquiring the information of the electric personnel and distributing the carrier machine to be maintained to the corresponding electric personnel for maintenance, and the specific distribution steps are as follows:

step one: setting the electric personnel marks as Dj, j=1, … … and n;

step two: obtaining a distance difference through the positioning position of the carrier to be maintained and the mobile phone terminal of the electric personnel, and marking the distance difference as G _Dj ；

Step three: acquiring the time length of the electric personnel to enter the electric personnel through the time length of the electric personnel to enter the electric personnel and the current time of the system, and marking the time length as T _Dj ；

Step four: using the formulaObtaining the distribution maintenance value FW of the electric personnel _Dj The method comprises the steps of carrying out a first treatment on the surface of the Wherein x1, x2 and x3 are preset proportionality coefficients; w (W) _Dj The number of the carrier machines to be maintained which are not maintained for the electric personnel;

step five: selecting the power personnel with the largest distribution maintenance value as the selected personnel, and maintaining the carrier machine to be maintained by the selected personnel; and meanwhile, the number of the undetermined carriers to be maintained of the selected personnel is increased by one.

Compared with the prior art, the invention has the beneficial effects that:

1. the method comprises the steps that the data acquisition module acquires power carrier information and power line information, analyzes the power carrier information and the power line information through the data analysis module to obtain a carrier to be switched and a carrier to be received, and sends the carrier to a server; the server connects the positions of the carrier to be switched and the carrier to be received through a red line; the user accesses a red line between the carrier to be switched and the carrier to be received in the server through the mobile phone terminal, and the server generates an allocation instruction and sends the allocation instruction and user information to the terminal allocation module; the terminal distribution module receives the distribution instruction and calculates the user information to obtain a switching right value of the user, the user clicks a red line between the carrier to be switched and the carrier to be received on line, the terminal distribution module calculates the switching right value of the user, and when the switching right value is larger than a set threshold value, the switching communication module transmits the carrier to be switched and the carrier to be received through a mobile phone terminal of the user, so that the problem that the transmission distance is shorter when the load of a power line is heavier is avoided;

2. the maintenance distribution module acquires the information of the electric personnel and distributes the carrier to be maintained to the corresponding electric personnel for maintenance; obtaining an allocation maintenance value of the electric personnel by utilizing a formula; selecting an electric power personnel with the largest distribution maintenance value to maintain the carrier to be maintained; and the power carrier is conveniently and reasonably maintained by selecting the corresponding power personnel through calculating the distribution maintenance value of the power personnel.

Drawings

The present invention is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

Fig. 1 is a schematic block diagram of a carrier communication on-line management system based on a power line according to the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, an on-line carrier communication management system based on a power line includes a carrier communication module, a data acquisition module, a communication switching module, a server, a registration login module, a data analysis module, a switching calculation module, a terminal distribution module and a maintenance distribution module;

the carrier communication module is used for the power line to carry out data carrier communication by the power line; the carrier communication module comprises a plurality of power carriers and power lines; the power line is communicated with the power line through a plurality of power line carriers; and the power line between two adjacent power line carriers is marked as a transmission line; the data acquisition module is used for acquiring the information of the power carrier and the information of the power line and transmitting the information of the power carrier and the information of the power line to the server for storage; the power carrier information comprises the position of the power carrier, power carrier supply voltage data and alarm data and the intensity of a received carrier signal; the power line information includes a length of the transmission line; the data analysis module is used for analyzing the power carrier information and the power line information, and the specific analysis steps are as follows:

step one: when the power line is transmitted to the corresponding power line, the corresponding power line receives the carrier signal intensity;

step two: when the intensity of the received carrier signal is lower than a set threshold value, marking the power line carrier for transmitting the carrier signal as a carrier to be switched; marking a power carrier for receiving the carrier signal as a carrier to be received;

step three: the data analysis module sends the carrier to be switched and the carrier to be received into the server; the server connects the positions of the carrier to be switched and the carrier to be received through a red line;

the registration login module is used for submitting user information and electric personnel information through a mobile phone terminal and registering, and sending the user information and the electric personnel information which are successfully registered to a server for storage; the user information comprises names, mobile phone numbers, mobile phone terminal models, mobile phone terminal positioning positions, purchasing time and mobile communication types, wherein the mobile communication types comprise 3G, 4G and 5G; the electric personnel information comprises names, mobile phone numbers, job entering time and mobile phone terminal positioning positions;

the user accesses a red line between the carrier to be switched and the carrier to be received in the server through the mobile phone terminal, and the server generates an allocation instruction and sends the allocation instruction and user information to the terminal allocation module; the terminal allocation module receives the allocation instruction and carries out calculation processing on the user information, and the specific processing steps are as follows:

s1: setting a user record as Ri, i=1, … …, n;

s2: the distance between the positioning position of the mobile phone terminal of the user and the carrier to be switched and the distance between the positioning position of the mobile phone terminal of the user and the carrier to be received are obtained, and are respectively marked as D1 _Ri 、D2 _Ri ；

S3: setting the corresponding integral value of the mobile communication category to be Jk, k=1, 2, and 3; wherein J1 represents an integrated value of the mobile communication category 3G; j2 represents an integrated value of mobile communication category 4G; j3 represents an integrated value of the mobile communication category 5G; and J1< J2< J3;

s4: matching the mobile communication type corresponding to the user mobile phone terminal with the integral value corresponding to the mobile communication type to obtain a corresponding integral value, and marking the integral value as Jk _Ri ；

S5: setting a preset mobile phone value corresponding to the mobile phone model as Wm, wherein m=1, … … and n; matching the mobile phone model of the user with a preset mobile phone value to obtain a corresponding preset mobile phone value, and marking the corresponding preset mobile phone value as Wm _Ri ；

S6: acquiring the using time of the mobile phone terminal of the user through the purchase time of the user and the current time of the system, and marking the using time as T _Ri ；

S7: using the formulaObtaining a transfer authority value PF of a user _Ri The method comprises the steps of carrying out a first treatment on the surface of the Wherein lambda is a preset correction factor and takes a value of 0.8365489; v1, v2, v3, v4 and v5 are all preset proportionality coefficients; u (U) _Ri A switching value for the user; the method can be obtained through a formula, and the shorter the using time of the mobile phone terminal of the user is, the larger the switching right value is, which indicates that the user switches through the mobile phone terminalThe greater the probability; the closer the distance between the positioning position of the user mobile phone terminal and the carrier to be switched and the carrier to be received is, the larger the switching right value is;

s8: setting the length of a transmission line between a carrier to be switched and a carrier to be received as C1; the corresponding preset transmission value of the transmission line is marked as YC; when PF (physical filter) _Ri >Yc+c1 x v6; the terminal distribution module generates a transfer instruction and sends the transfer instruction and user information to the communication transfer module; wherein v6 is a preset scaling factor; when PF (physical filter) _Ri Let yc+c1 x v6; generating a switching failure instruction and sending the switching failure instruction to a mobile phone terminal of the user;

the transfer communication module is used for transmitting between the carrier to be transferred and the carrier to be received through a mobile phone terminal of a user; the specific process of transmission by the transfer communication module is as follows:

a1: the switching communication module is used for carrying out communication connection on a mobile phone terminal of a user, a carrier to be switched and a carrier to be received; the switching communication module counts initial connection time of communication connection between a mobile phone terminal of a user and a carrier to be switched and a carrier to be received;

a2: the carrier to be switched sends the transmitted data to the carrier to be received through the mobile phone terminal of the user; meanwhile, the total number of times of transmission of the user is increased once;

a3: the switching communication module controls the carrier to be switched to send carrier signals to the carrier to be received at regular time, and when the intensity of the carrier signals received by the carrier to be received is greater than or equal to a set threshold value, the switching communication module controls the user mobile phone terminal to be connected with the carrier to be switched and the carrier to be received in a disconnected communication mode; meanwhile, counting disconnection time; the carrier signal transmission is carried out between the carrier to be switched and the carrier to be received through a transmission line, and meanwhile, a disconnection instruction is generated;

a4: the switching communication module switches the initial connection time, the total number of times of transmission of the user, the disconnection time, the disconnection instruction, the carrier to be switched and the carrier to be received to the server; and after receiving the disconnection instruction, the server connects the position between the carrier to be switched and the carrier to be received through a blue line.

The switching calculation module is used for calculating a switching value of a user, and the specific calculation steps are as follows:

SS1: setting the total transmission number of the user as Z _Ri Acquiring a single output duration of a user through initial connection time and disconnection time of the user each time, and marking the single output duration as E;

SS2: obtaining a user single transmission value F by using a formula F=E=v7; wherein v7 is a preset scaling factor;

SS3: accumulating and summing the single transmission values of the users to obtain the total transmission integral of the users, and marking the total transmission integral as LF _Ri ；

SS4: using formula U _Ri =Z _Ri *v8+LF _Ri * v9 obtaining the user switching value U _Ri The method comprises the steps of carrying out a first treatment on the surface of the Wherein v8 and v9 are both preset scaling factors;

the power carrier is provided with an acquisition unit for acquiring alarm sounds of an alarm on the power carrier and an analysis unit for matching the alarm sounds; the acquisition unit sends the acquired alarm sound to the analysis unit; the analysis unit matches the collected alarm sound with the sound stored in the analysis unit; when the corresponding internal storage sound is matched, marking the power carrier as a carrier to be maintained;

the power carrier is also provided with a voltage sensor for collecting the power supply voltage of the power carrier; when the voltage sensor is lower than a set threshold value, marking the power carrier as a carrier to be maintained; meanwhile, marking the position of the carrier to be maintained as alarm data;

the maintenance distribution module is used for acquiring the information of the electric personnel and distributing the carrier machine to be maintained to the corresponding electric personnel for maintenance, and the specific distribution steps are as follows:

step one: setting the electric personnel marks as Dj, j=1, … … and n;

step two: obtaining a distance difference through the positioning position of the carrier to be maintained and the mobile phone terminal of the electric personnel, and marking the distance difference as G _Dj ；

Step three: the power is obtained through the time of entering the job of the electric personnel and the current time of the systemThe time length of the personnel entering the job is marked as T _Dj ；

Step four: using the formulaObtaining the distribution maintenance value FW of the electric personnel _Dj The method comprises the steps of carrying out a first treatment on the surface of the Wherein x1, x2 and x3 are preset proportionality coefficients; w (W) _Dj The number of the carrier machines to be maintained which are not maintained for the electric personnel; the distance difference between the electric personnel and the carrier to be maintained is smaller, the distribution maintenance value is larger, and the probability of selecting to maintain the carrier to be maintained is larger; the more the time of the power personnel to enter the job is solved for three years, the larger the distributed maintenance value is; the fewer the number of non-maintained carriers to be maintained for the electric personnel; the greater the assigned maintenance value;

step five: selecting the power personnel with the largest distribution maintenance value as the selected personnel, and maintaining the carrier machine to be maintained by the selected personnel; and meanwhile, the number of the undetermined carriers to be maintained of the selected personnel is increased by one.

The working principle of the invention is as follows: the method comprises the steps that the data acquisition module acquires power carrier information and power line information, analyzes the power carrier information and the power line information through the data analysis module to obtain a carrier to be switched and a carrier to be received, and sends the carrier to a server; the server connects the positions of the carrier to be switched and the carrier to be received through a red line; the user accesses a red line between the carrier to be switched and the carrier to be received in the server through the mobile phone terminal, and the server generates an allocation instruction and sends the allocation instruction and user information to the terminal allocation module; the terminal distribution module receives the distribution instruction and calculates the user information to obtain a switching authority value of the user, judges whether the user mobile phone terminal is in communication connection with the power line carrier or not according to the switching authority value of the user, and transmits the carrier to be switched and the carrier to be received through the mobile phone terminal of the user through the switching communication module; the user calculates the transfer authority value of the user through the terminal distribution module by clicking the red line between the carrier to be transferred and the carrier to be received on line, and when the transfer authority value is larger than the set threshold value, the transfer communication module transfers the carrier to be transferredThe carrier receiving machine and the carrier to be received are transmitted through the mobile phone terminal of the user, so that the problem that the transmission distance is short when the load of the power line is heavy is avoided; the maintenance distribution module is used for acquiring the information of the electric personnel and distributing the carrier to be maintained to the corresponding electric personnel for maintenance; using the formulaObtaining the distribution maintenance value FW of the electric personnel _Dj The method comprises the steps of carrying out a first treatment on the surface of the Selecting the power personnel with the largest distribution maintenance value as the selected personnel, and maintaining the carrier machine to be maintained by the selected personnel; and the power carrier is conveniently and reasonably maintained by selecting the corresponding power personnel through calculating the distribution maintenance value of the power personnel.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (4)

1. The carrier communication on-line management system based on the power line is characterized by comprising a carrier communication module, a data acquisition module, a transfer communication module, a server, a registration login module, a data analysis module, a transfer calculation module, a terminal distribution module and a maintenance distribution module;

the carrier communication module is used for the power line to perform data carrier communication by the power line; the carrier communication module comprises a plurality of power carriers and power lines; the power line is communicated with the power line through a plurality of power line carriers; and the power line between two adjacent power line carriers is marked as a transmission line; the data acquisition module is used for acquiring power carrier information and power line information and sending the power carrier information and the power line information to the server for storage; the data analysis module is used for analyzing the power carrier information and the power line information, and the specific analysis steps are as follows:

step one: when the power line transmits a carrier signal to the corresponding power line carrier, judging the intensity of the carrier signal received by the corresponding power line carrier;

step two: when the intensity of the received carrier signal is lower than a set threshold value, marking the power line carrier for transmitting the carrier signal as a carrier to be switched; marking a power carrier for receiving the carrier signal as a carrier to be received;

step three: the data analysis module sends the positions of the carrier to be switched and the carrier to be received to the server; the server connects the positions of the carrier to be switched and the carrier to be received through a red line;

the registration login module is used for submitting user information and electric personnel information through a mobile phone terminal and registering, and sending the user information and the electric personnel information which are successfully registered to a server for storage; the user accesses a red line between the carrier to be switched and the carrier to be received in the server through the mobile phone terminal, and the server generates an allocation instruction and sends the allocation instruction and user information to the terminal allocation module; the terminal allocation module receives the allocation instruction and carries out calculation processing on the user information, and the specific processing steps are as follows:

s1: setting a user mark as Ri, i=1, … …, n;

s2: the distance between the positioning position of the mobile phone terminal of the user and the carrier to be switched and the distance between the positioning position of the mobile phone terminal of the user and the carrier to be received are obtained, and are respectively marked as D1 _Ri 、D2 _Ri ；

S3: setting the corresponding integral value of the mobile communication category to be Jk, k=1, 2, and 3; wherein J1 represents an integrated value of the mobile communication category 3G; j2 represents an integrated value of mobile communication category 4G; j3 represents an integrated value of the mobile communication category 5G; and J1< J2< J3;

s4: corresponding product of mobile communication type and mobile communication type corresponding to user mobile phone terminalThe score is matched to obtain a corresponding integral value and marked as Jk _Ri ；

S5: setting a preset mobile phone value corresponding to the mobile phone model as Wm, wherein m=1, … … and n; matching the mobile phone model of the user with a preset mobile phone value to obtain a corresponding preset mobile phone value, and marking the corresponding preset mobile phone value as Wm _Ri ；

S6: acquiring the using time of the mobile phone terminal of the user through the purchase time of the user and the current time of the system, and marking the using time as T _Ri ；

S7: using the formulaObtaining a transfer authority value PF of a user _Ri The method comprises the steps of carrying out a first treatment on the surface of the Wherein lambda is a preset correction factor and takes a value of 0.8365489; v1, v2, v3, v4 and v5 are all preset proportionality coefficients; u (U) _Ri A switching value for the user;

s8: setting the length of a transmission line between a carrier to be switched and a carrier to be received as C1; the corresponding preset transmission value of the transmission line is marked as YC; when PF (physical filter) _Ri >Yc+c1×v6, the terminal allocation module generates a transfer instruction and sends the transfer instruction and the user information to the transfer communication module; wherein v6 is a preset scaling factor; when PF (physical filter) _Ri If less than or equal to YC+C1, v6, generating a transfer failure instruction and sending the transfer failure instruction to a mobile phone terminal of the user;

the transfer communication module is used for transmitting carrier signals between the carrier to be transferred and the carrier to be received through a mobile phone terminal of a user.

2. The power line-based carrier communication online management system according to claim 1, wherein the switching calculation module is configured to calculate a switching value of a user, and the specific calculation steps are as follows:

SS1: setting the total transmission number of the user as Z _Ri Acquiring a single output duration of a user through initial connection time and disconnection time of the user each time, and marking the single output duration as E;

SS2: obtaining a user single transmission value F by using a formula F=E=v7; wherein v7 is a preset scaling factor;

SS3: accumulating and summing the single transmission values of the users to obtain the total transmission integral of the users, and marking the total transmission integral as LF _Ri ；

SS4: using formula U _Ri ＝Z _Ri *v8+LF _Ri * v9 obtaining the user switching value U _Ri The method comprises the steps of carrying out a first treatment on the surface of the Wherein v8 and v9 are both preset scaling factors.

3. The power line-based carrier communication on-line management system of claim 1, wherein the power carrier information includes power carrier location, power carrier supply voltage data and alarm data, and strength of a received carrier signal; the power line information includes a length of the transmission line; the user information comprises names, mobile phone numbers, mobile phone terminal models, mobile phone terminal positioning positions, purchasing time and mobile communication types, wherein the mobile communication types comprise 3G, 4G and 5G; the electric personnel information comprises names, mobile phone numbers, job entering time and mobile phone terminal positioning positions;

the power carrier is provided with an acquisition unit for acquiring alarm sounds of an alarm on the power carrier and an analysis unit for matching the alarm sounds; the acquisition unit sends the acquired alarm sound to the analysis unit; the analysis unit matches the collected alarm sound with the sound stored in the analysis unit; when the corresponding internal storage sound is matched, marking the power carrier as a carrier to be maintained;

the power carrier is also provided with a voltage sensor for collecting the power supply voltage of the power carrier; when the voltage sensor is lower than a set threshold value, marking the power carrier as a carrier to be maintained; and meanwhile, the position of the carrier to be maintained is marked as alarm data.

4. The power line-based carrier communication online management system according to claim 1, wherein the maintenance allocation module is configured to obtain information of power personnel and allocate a carrier to be maintained to a corresponding power personnel for maintenance, and the specific allocation steps are as follows:

step one: setting the electric personnel marks as Dj, j=1, … … and n;

step two: obtaining a distance difference through the positioning position of the carrier to be maintained and the mobile phone terminal of the electric personnel, and marking the distance difference as G _Dj ；

Step three: acquiring the time length of the electric personnel to enter the electric personnel through the time length of the electric personnel to enter the electric personnel and the current time of the system, and marking the time length as T _Dj ；

Step four: using the formulaObtaining the distribution maintenance value FW of the electric personnel _Dj The method comprises the steps of carrying out a first treatment on the surface of the Wherein x1, x2 and x3 are preset proportionality coefficients; w (W) _Dj The number of the carrier machines to be maintained which are not maintained for the electric personnel;

step five: selecting the power personnel with the largest distribution maintenance value as the selected personnel, and maintaining the carrier machine to be maintained by the selected personnel; and meanwhile, the number of the undetermined carriers to be maintained of the selected personnel is increased by one.