CN115037334A - Carrier communication online management system based on power line - Google Patents
Carrier communication online management system based on power line Download PDFInfo
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- CN115037334A CN115037334A CN202210692695.9A CN202210692695A CN115037334A CN 115037334 A CN115037334 A CN 115037334A CN 202210692695 A CN202210692695 A CN 202210692695A CN 115037334 A CN115037334 A CN 115037334A
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- 238000007405 data analysis Methods 0.000 claims abstract description 12
- 238000010295 mobile communication Methods 0.000 claims description 24
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04B—TRANSMISSION
- H04B3/00—Line transmission systems
- H04B3/54—Systems for transmission via power distribution lines
- H04B3/544—Setting up communications; Call and signalling arrangements
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- G—PHYSICS
- G08—SIGNALLING
- G08B—SIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
- G08B3/00—Audible signalling systems; Audible personal calling systems
- G08B3/10—Audible signalling systems; Audible personal calling systems using electric transmission; using electromagnetic transmission
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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
- H04L41/06—Management of faults, events, alarms or notifications
- H04L41/0631—Management of faults, events, alarms or notifications using root cause analysis; using analysis of correlation between notifications, alarms or events based on decision criteria, e.g. hierarchy, tree or time analysis
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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
- H04L41/08—Configuration management of networks or network elements
- H04L41/0803—Configuration setting
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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
- H04L41/28—Restricting access to network management systems or functions, e.g. using authorisation function to access network configuration
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y04—INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
- Y04S—SYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
- Y04S40/00—Systems for electrical power generation, transmission, distribution or end-user application management characterised by the use of communication or information technologies, or communication or information technology specific aspects supporting them
- Y04S40/12—Systems for electrical power generation, transmission, distribution or end-user application management characterised by the use of communication or information technologies, or communication or information technology specific aspects supporting them characterised by data transport means between the monitoring, controlling or managing units and monitored, controlled or operated electrical equipment
- Y04S40/126—Systems for electrical power generation, transmission, distribution or end-user application management characterised by the use of communication or information technologies, or communication or information technology specific aspects supporting them characterised by data transport means between the monitoring, controlling or managing units and monitored, controlled or operated electrical equipment using wireless data transmission
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Abstract
The invention discloses a carrier communication online management system based on a power line, which is used for solving the problems of shorter transmission distance and weaker received carrier signal when the power line is heavier in load; the system comprises a carrier communication module, a data acquisition module, a communication switching module, a server, a registration and login module, a data analysis module, a switching calculation module, a terminal distribution module and a maintenance distribution module; the method comprises the steps that a terminal distribution module calculates the switching authority value of a user, when the switching authority value is larger than a set threshold value, a switching communication module transmits a carrier machine to be switched and a carrier machine to be received through a mobile phone terminal of the user, and a power person with the largest distribution maintenance value is selected to maintain the carrier machine to be maintained; the power carrier machine is conveniently and reasonably maintained by selecting corresponding power personnel through the calculation of the distribution maintenance value of the power personnel.
Description
Technical Field
The invention relates to the technical field of carrier communication, in particular to a carrier communication online management system based on a power line.
Background
The carrier communication is a telephone multi-channel communication system based on frequency division multiplexing technology, and belongs to the standard of classical analog communication. The power carrier is a communication method specific to a power system, and the power carrier communication is a technology for transmitting an analog or digital signal at a high speed by a carrier method using an existing power line. The method has the advantages that data transmission can be carried out as long as wires are available without erecting a network again;
the power lines cause 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 reduction of the carrier signal. In practice, when the power line is empty, the point-to-point carrier signal can be transmitted over several kilometers. But when the load on the power line is heavy, only tens of meters can be transmitted.
Disclosure of Invention
The invention aims to provide a carrier communication online management system based on a power line, a user clicks a red line between a carrier machine to be switched and a carrier machine to be received online, a terminal distribution module calculates the switching authority value of the user, when the switching authority value is greater than a set threshold value, a switching communication module transmits the carrier machine to be switched and the carrier machine to be received through a mobile phone terminal of the user, and a maintenance distribution module acquires power personnel information and distributes the carrier machine to be maintained to corresponding power personnel for maintenance; obtaining the distribution maintenance value of the power personnel by using a formula; selecting the power personnel with the maximum distribution maintenance value to maintain the carrier machine to be maintained; the power carrier machine is conveniently and reasonably maintained by selecting corresponding power personnel through calculating the distribution maintenance value of the power personnel;
the technical problem to be solved by the invention is as follows:
1. how to click the red line on line and calculate the switching authority value of the user by the user, so that the data transmission between the carrier machine and the user mobile phone terminal is established by the switching authority value, the data switching is realized, and the problems of short transmission distance and weak received carrier signal when the load of a power line is heavy are solved;
the purpose of the invention can be realized by the following technical scheme: a carrier communication online management system based on a power line comprises a carrier communication module, a data acquisition module, a communication switching module, a server, a registration and 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 carrier machine to carry out data carrier communication through a power line; the carrier communication module comprises a plurality of power carrier machines and a power circuit; the power line signal transmission device comprises a plurality of power line carrier machines, a plurality of filters and a plurality of power line filters, wherein the power line carrier machines are in communication connection with a power line through the filters; marking a power line mark between two adjacent power line carrier machines as a transmission line; the data acquisition module is used for acquiring the information of the power line carrier and the information of the power line and sending the information of the power line carrier and the information of the power line to the server for storage; the data analysis module is used for analyzing the information of the power line carrier and the information of the power line, and the specific analysis steps are as follows:
the method comprises the following steps: when the power carrier machine is sent to the corresponding power carrier machine through the transmission line, the intensity of the carrier signal received by the corresponding power carrier machine is increased;
step two: when the strength of the received carrier signal is lower than a set threshold value, the power carrier machine which sends the carrier signal is marked as a carrier machine to be switched; marking the power carrier machine for receiving the carrier signal as a carrier machine to be received;
step three: the data analysis module sends the carrier to be switched and the carrier to be received 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 registration login module is used for submitting user information and electric power personnel information through a mobile phone terminal by a user and electric power personnel, registering and sending the user information and the electric power personnel information which are registered successfully to the server for storage; a user accesses a red line between a carrier machine to be switched and a carrier machine to be received in a server through a mobile phone terminal, and the server generates a distribution instruction and sends the distribution instruction and user information to a terminal distribution module; the terminal allocation module receives the allocation instruction and performs calculation processing on the user information, and the specific processing steps are as follows:
s1: setting users as Ri, i =1, … …, n;
s2: positioning position and carrier to be switched and carrier to be received through user mobile phone terminalThe distance is obtained and labeled D1 Ri 、D2 Ri ;
S3: setting corresponding integral values of mobile communication types as Jk, and setting k =1, 2 and 3; wherein J1 represents the integrated value of the mobile communication type 3G; j2 represents an integrated value of 4G for the mobile communication type; j3 represents an integrated value of 5G for the mobile communication type; 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 preset mobile phone value as Wm Ri ;
S6: obtaining the service duration of the user mobile phone terminal through the purchase time of the user and the current system time, and marking the service duration as T Ri ;
S7: using a formulaObtaining and obtaining the user's switching right value PF Ri (ii) a Wherein, λ is a preset correction factor, and its value is 0.8365489; v1, v2, v3, v4 and v5 are all preset proportionality coefficients; u shape Ri A switch value for the user;
s8: setting the length of a transmission line between the carrier to be switched and the carrier to be received as C1; recording a preset transmission value corresponding to the transmission line as YC; when PF Ri >YC + C1 × v 6; the terminal distribution module generates a switching instruction and sends the switching instruction and the user information to the communication switching module; wherein v6 is a preset scaling factor; when the PF Ri YC + C1 × v 6; generating a transfer failure instruction and sending the transfer failure instruction to the mobile phone terminal of the user;
the switching communication module is used for transmitting the carrier to be switched and the carrier to be received through the mobile phone terminal of the user.
The specific process of the transfer communication module for transmission is as follows:
a1: the switching communication module is used for carrying out communication connection on a mobile phone terminal of a user with the carrier machine to be switched and the carrier machine to be received; the switching communication module counts the initial connection time of the communication connection of the mobile phone terminal of the user with the carrier machine to be switched and the carrier machine to be received;
a2: the carrier machine to be switched sends the transmitted data to the carrier machine to be received through the mobile phone terminal of the user; meanwhile, the total transmission times of the user is increased once;
a3: the switching communication module controls the carrier machine to be switched to send a carrier signal to the carrier machine to be received in a timing mode, and when the intensity of the carrier signal received by the carrier machine to be received is larger than or equal to a set threshold value, the switching communication module controls the user mobile phone terminal to be disconnected and connected with the carrier machine to be switched and the carrier machine to be received; meanwhile, counting disconnection time; carrying out carrier signal transmission between the carrier machine to be switched and the carrier machine to be received through a transmission line, and simultaneously generating a disconnection instruction;
a4: the switching communication module transmits the initial connection time, the total transmission times and disconnection time of the user, a disconnection instruction, the carrier machine to be switched and the carrier machine to be received to the server; and after receiving the disconnection instruction, the server connects the positions 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:
SS 1: setting the total transmission times of the users as Z Ri Acquiring single output duration of the user through initial connection time and disconnection time of each time of the user, and marking the single output duration as E;
SS 2: obtaining a user single transmission value F by using a formula F = E × v 7; wherein v7 is a preset proportionality coefficient;
SS 3: the single transmission values of the users are accumulated and summed to obtain the total transmission integral of the users, and the total transmission integral is marked as LF Ri ;
SS 4: using formula U Ri =Z Ri *v8+LF Ri V9 obtaining user switching value U Ri (ii) a Wherein v8 and v9 are both preset scaling factors.
The power line carrier machine information comprises the position of the power line carrier machine, power supply voltage data and alarm data of the power line carrier machine and the strength of a received carrier signal; the power line information includes a length of the transmission line; the user information comprises a name, a mobile phone number, a mobile phone terminal model, a mobile phone terminal positioning position, purchase time and mobile communication types, wherein the mobile communication types comprise 3G, 4G and 5G; the electric power personnel information comprises a name, a mobile phone number, an enrollment time and a mobile phone terminal positioning position;
the power carrier is provided with a collecting unit for collecting alarm sound of an alarm on the power carrier and an analyzing unit for matching the alarm sound; the acquisition unit transmits 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, the power line carrier is marked as a carrier to be maintained;
the power carrier machine is also provided with a voltage sensor for collecting the power supply voltage of the power carrier machine; when the voltage sensor is lower than a set threshold value, the power line carrier is marked as a carrier to be maintained; and simultaneously marking the position of the carrier machine to be maintained as alarm data.
The maintenance and distribution module is used for acquiring the information of power personnel and distributing the carrier machine to be maintained to the corresponding power personnel for maintenance, and the specific distribution steps are as follows:
the method comprises the following steps: setting the utility flag to Dj, j =1, … …, n;
step two: obtaining a distance difference through the positioning positions of the carrier machine to be maintained and the mobile phone terminal of the power personnel, and marking the distance difference as G Dj ;
Step three: acquiring the working time of the power personnel according to the working time of the power personnel and the current system time, and marking the working time as T Dj ;
Step four: using formulasObtaining distributed maintenance value FW of electric power personnel Dj (ii) a Wherein x1, x2 and x3 are all preset proportionality coefficients; w Dj Is electric powerThe number of carriers to be maintained without maintenance of personnel;
step five: selecting the power personnel with the maximum distribution maintenance value as selected personnel, and maintaining the carrier machine to be maintained by the selected personnel; and simultaneously, the number of the carrier machines to be maintained without maintenance of the selected personnel is increased by one.
Compared with the prior art, the invention has the beneficial effects that:
1. acquiring information of a power line carrier and information of a power line through a data acquisition module, analyzing the information through a data analysis module to obtain a carrier to be switched and a carrier to be received, and sending the carrier to be switched and the carrier to be received into a server; the server connects the positions of the carrier to be switched and the carrier to be received through a red line; a user accesses a red line between a carrier machine to be switched and a carrier machine to be received in a server through a mobile phone terminal, and the server generates a distribution instruction and sends the distribution instruction and user information to a terminal distribution module; the terminal distribution module receives the distribution instruction and calculates and processes user information to obtain a switching authority value of a user of the user, the user clicks a red line between a carrier machine to be switched and a carrier machine to be received on line, the switching authority value of the user is calculated through the terminal distribution module, and when the switching authority value is larger than a set threshold value, the switching communication module transmits the carrier machine to be switched and the carrier machine to be received through a mobile phone terminal of the user, so that the problem that a transmission distance is short when a power line is heavy in load is avoided;
2. the maintenance and distribution module acquires the information of power personnel and distributes the carrier machine to be maintained to the corresponding power personnel for maintenance; obtaining the distribution maintenance value of the power personnel by using a formula; selecting the power personnel with the maximum distribution maintenance value to maintain the carrier machine to be maintained; the power carrier machine is conveniently and reasonably maintained by selecting corresponding power personnel through the calculation of the distribution maintenance value of the power personnel.
Drawings
In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.
Fig. 1 is a schematic block diagram of a carrier communication online management system based on a power line according to the present invention.
Detailed Description
The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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, a carrier communication online management system based on a power line includes a carrier communication module, a data acquisition module, a communication switching module, a server, a registration and 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 carrying out data carrier communication on the power carrier machine through a power line; the carrier communication module comprises a plurality of power carrier machines and a power circuit; the power line communication connection is realized by a plurality of power line carrier machines through filters; marking a power line mark between two adjacent power line carrier machines as a transmission line; the data acquisition module is used for acquiring the information of the power line carrier and the information of the power line and sending the information of the power line carrier and the information of the power line to the server for storage; the information of the power line carrier machine comprises the position of the power line carrier machine, the power supply voltage data and the alarm data of the power line carrier machine and the strength 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 information of the power line carrier and the information of the power line, and the specific analysis steps are as follows:
the method comprises the following steps: when the power line carrier machine is sent to the corresponding power line carrier machine through the transmission line, the intensity of the carrier signal received by the corresponding power line carrier machine is high;
step two: when the strength of the received carrier signal is lower than a set threshold value, the power carrier machine which sends the carrier signal is marked as a carrier machine to be switched; marking the power carrier machine for receiving the carrier signal as a carrier machine to be received;
step three: the data analysis module sends the carrier to be switched and the carrier to be received 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 registration login module is used for submitting user information and electric power personnel information through the mobile phone terminal by a user and electric power personnel, registering and sending the user information and the electric power personnel information which are registered successfully to the server for storage; the user information comprises a name, a mobile phone number, a mobile phone terminal model, a mobile phone terminal positioning position, purchase time and mobile communication types, wherein the mobile communication types comprise 3G, 4G and 5G; the electric power personnel information comprises a name, a mobile phone number, an enrollment time and a mobile phone terminal positioning position;
a user accesses a red line between a carrier machine to be switched and a carrier machine to be received in a server through a mobile phone terminal, and the server generates a distribution instruction and sends the distribution instruction and user information to a terminal distribution module; the terminal allocation module receives the allocation instruction and performs calculation processing on the user information, and the specific processing steps are as follows:
s1: setting users as Ri, i =1, … …, n;
s2: the distances between the positioning position of the user mobile phone terminal and the carrier to be switched and the distance between the positioning position of the user mobile phone terminal and the carrier to be received are obtained and are respectively marked as D1 Ri 、D2 Ri ;
S3: setting corresponding integral values of mobile communication types as Jk, and setting k =1, 2 and 3; wherein J1 represents the integrated value of the mobile communication type 3G; j2 represents an integrated value of 4G of the mobile communication type; j3 represents an integrated value of 5G for the mobile communication type; 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 preset mobile phone value as Wm Ri ;
S6: obtaining the service duration of the user mobile phone terminal through the purchase time of the user and the current system time, and marking the service duration asT Ri ;
S7: using formulasObtaining and obtaining the user's switching right value PF Ri (ii) a Wherein, λ is a preset correction factor, and its value is 0.8365489; v1, v2, v3, v4 and v5 are all preset proportionality coefficients; u shape Ri A switch value for the user; the user can obtain the switching right value by a formula, and the switching probability of the user through the mobile phone terminal is higher when the mobile phone terminal of the user is shorter in service time and the switching right value is higher; the closer the distance between the positioning position of the user mobile phone terminal and the carrier to be switched and the distance between the positioning position of the user mobile phone terminal and the carrier to be received are, the larger the switching authority value is;
s8: setting the length of a transmission line between the carrier to be switched and the carrier to be received as C1; recording a preset transmission value corresponding to the transmission line as YC; when PF Ri >YC + C1 × v 6; the terminal distribution module generates a switching instruction and sends the switching instruction and the user information to the communication switching module; wherein v6 is a preset scaling factor; when PF Ri YC + C1 × v 6; generating a transfer failure instruction and sending the transfer failure instruction to the mobile phone terminal of the user;
the switching communication module is used for transmitting the carrier to be switched and the carrier to be received through a mobile phone terminal of a user; the specific process of the transfer communication module for transmission is as follows:
a1: the switching communication module is used for carrying out communication connection on a mobile phone terminal of a user with the carrier machine to be switched and the carrier machine to be received; the switching communication module counts the initial connection time of the communication connection of the mobile phone terminal of the user with the carrier machine to be switched and the carrier machine to be received;
a2: the carrier machine to be switched sends the transmitted data to the carrier machine to be received through the mobile phone terminal of the user; meanwhile, the total transmission times of the user is increased once;
a3: the switching communication module controls the carrier machine to be switched to send a carrier signal to the carrier machine to be received in a timing mode, and when the intensity of the carrier signal received by the carrier machine to be received is larger than or equal to a set threshold value, the switching communication module controls the user mobile phone terminal to be disconnected and connected with the carrier machine to be switched and the carrier machine to be received; meanwhile, counting disconnection time; carrying out carrier signal transmission between the carrier machine to be switched and the carrier machine to be received through a transmission line, and simultaneously generating a disconnection instruction;
a4: the switching communication module transmits the initial connection time, the total transmission times and disconnection time of the user, a disconnection instruction, the carrier machine to be switched and the carrier machine to be received to the server; and after receiving the disconnection instruction, the server connects the position between the carrier machine to be switched and the carrier machine to be received through a blue line.
The switching calculation module is used for calculating a switching value of a user, and comprises the following specific calculation steps:
SS 1: setting the total transmission times of the users as Z Ri Acquiring single output duration of the user through initial connection time and disconnection time of the user every time, and marking the single output duration as E;
SS 2: obtaining a user single transmission value F by using a formula F = E × v 7; wherein v7 is a preset proportionality coefficient;
SS 3: the single transmission values of the users are accumulated and summed to obtain the total transmission integral of the users, and the total transmission integral is marked as LF Ri ;
SS 4: using formula U Ri =Z Ri *v8+LF Ri V9 obtaining user switching value U Ri (ii) a Wherein v8 and v9 are both preset proportionality coefficients;
the power line carrier is provided with a collecting unit for collecting alarm sound of an alarm reported by the power line carrier and an analyzing unit for matching the alarm sound; the acquisition unit transmits 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, the power line carrier is marked as a carrier to be maintained;
the power carrier machine is also provided with a voltage sensor for collecting the power supply voltage of the power carrier machine; when the voltage sensor is lower than a set threshold value, the power line carrier is marked as a carrier to be maintained; meanwhile, the position of the carrier machine to be maintained is marked as alarm data;
the maintenance distribution module is used for acquiring the information of power personnel and distributing the carrier machine to be maintained to the corresponding power personnel for maintenance, and the specific distribution steps are as follows:
the method comprises the following steps: setting the utility flag to Dj, j =1, … …, n;
step two: obtaining a distance difference through the positioning positions of the carrier machine to be maintained and the mobile phone terminal of the power personnel, and marking the distance difference as G Dj ;
Step three: acquiring the working time of the power personnel according to the working time of the power personnel and the current system time, and marking the working time as T Dj ;
Step four: using formulasObtaining distributed maintenance value FW of electric power personnel Dj (ii) a Wherein x1, x2 and x3 are all preset proportionality coefficients; w Dj The number of the carrier machines to be maintained is not maintained by power personnel; the method has the advantages that the smaller the distance difference between the power personnel and the carrier machine to be maintained is, the larger the distributed maintenance value is, and the higher the probability of selecting and maintaining the carrier machine to be maintained is; the more the working duration of the power personnel is solved for three years, the larger the distributed maintenance value is; the smaller the number of the carrier machines to be maintained without maintenance of the power personnel; the greater the assigned maintenance value;
step five: selecting the power personnel with the maximum distribution maintenance value as selected personnel, and maintaining the carrier machine to be maintained by the selected personnel; and simultaneously, the number of the carrier machines to be maintained without maintenance of the selected personnel is increased by one.
The working principle of the invention is as follows: acquiring information of a power line carrier and information of a power line through a data acquisition module, analyzing the information through a data analysis module to obtain a carrier to be switched and a carrier to be received, and sending the carrier to be switched and the carrier to be received into a server; the server connects the positions of the carrier to be switched and the carrier to be received through a red line; a user accesses a red line between a carrier machine to be switched and a carrier machine to be received in a server through a mobile phone terminal, and the server generates a distribution instruction and sends the distribution instruction and user information to a terminal distribution module; the terminal distribution module receives the distribution instruction and calculates and processes the user information to obtain the user of the userThe switching authority value is used for judging whether the user mobile phone terminal is in communication connection with the power line carrier machine or not through the switching authority value of the user, and then the switching communication module is used for transmitting the carrier machine to be switched and the carrier machine to be received through the mobile phone terminal of the user; the user clicks a red line between the carrier to be switched and the carrier to be received on line, the switching authority value of the user is calculated through the terminal distribution module, and when the switching authority 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 the mobile phone terminal of the user, so that the problem that the transmission distance is short when the load of a power line is heavy is avoided; the maintenance distribution module is used for acquiring the information of power personnel and distributing the carrier machine to be maintained to the corresponding power personnel for maintenance; using formulasObtaining distributed maintenance value FW of electric power personnel Dj (ii) a Selecting the power personnel with the maximum distribution maintenance value as selected personnel, and maintaining the carrier machine to be maintained by the selected personnel; the power carrier machine is conveniently and reasonably maintained by selecting corresponding power personnel through the calculation of the distribution maintenance value of the power personnel.
The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms 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 utilize the invention. The invention is limited only by the claims and their full scope and equivalents.
Claims (5)
1. A carrier communication online management system based on a power line is characterized by comprising a carrier communication module, a data acquisition module, a communication switching module, a server, a registration and 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 carrier machine to carry out data carrier communication through a power line; the carrier communication module comprises a plurality of power carrier machines and a power circuit; the power line signal transmission device comprises a plurality of power line carrier machines, a plurality of filters and a plurality of power line filters, wherein the power line carrier machines are in communication connection with a power line through the filters; marking a power line mark between two adjacent power line carrier machines as a transmission line; the data acquisition module is used for acquiring the information of the power line carrier and the information of the power line and sending the information of the power line carrier and the information of the power line to the server for storage; the data analysis module is used for analyzing the information of the power line carrier and the information of the power line, and the specific analysis steps are as follows:
the method comprises the following steps: when the power line carrier machine is sent to the corresponding power line carrier machine through the transmission line, the intensity of the carrier signal received by the corresponding power line carrier machine is high;
step two: when the strength of the received carrier signal is lower than a set threshold value, the power carrier machine which sends the carrier signal is marked as a carrier machine to be switched; marking the power carrier machine for receiving the carrier signal as a carrier machine to be received;
step three: the data analysis module sends the carrier to be switched and the carrier to be received 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 registration login module is used for submitting user information and electric power personnel information through a mobile phone terminal by a user and electric power personnel, registering and sending the user information and the electric power personnel information which are registered successfully to the server for storage; a user accesses a red line between a carrier machine to be switched and a carrier machine to be received in a server through a mobile phone terminal, and the server generates a distribution instruction and sends the distribution instruction and user information to a terminal distribution module; the terminal allocation module receives the allocation instruction and performs calculation processing on the user information, and the specific processing steps are as follows:
s1: setting users as Ri, i =1, … …, n;
s2: the distances between the positioning position of the user mobile phone terminal and the carrier to be switched and the distance between the positioning position of the user mobile phone terminal and the carrier to be received are obtained and are respectively marked as D1 Ri 、D2 Ri ;
S3: setting corresponding integral values of mobile communication types as Jk, and setting k =1, 2 and 3; wherein J1 represents the integrated value of the mobile communication type 3G; j2 represents an integrated value of 4G for the mobile communication type; j3 represents an integrated value of 5G for the mobile communication type; 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 preset mobile phone value as Wm Ri ;
S6: obtaining the service duration of the user mobile phone terminal through the purchase time of the user and the current system time, and marking the service duration as T Ri ;
S7: using formulasObtaining and obtaining the user's switching right value PF Ri (ii) a Wherein, λ is a preset correction factor, and its value is 0.8365489; v1, v2, v3, v4 and v5 are all preset proportionality coefficients; u shape Ri A switch value for the user;
s8: setting the length of a transmission line between a carrier machine to be switched and a carrier machine to be received as C1; recording a preset transmission value corresponding to the transmission line as YC; when PF Ri >YC + C1 × v 6; the terminal distribution module generates a switching instruction and sends the switching instruction and the user information to the communication switching module; wherein v6 is a preset proportionality coefficient; when PF Ri YC + C1 × v 6; generating a transfer failure instruction and sending the transfer failure instruction to the mobile phone terminal of the user;
the switching communication module is used for transmitting the carrier to be switched and the carrier to be received through the mobile phone terminal of the user.
2. The power line-based carrier communication online management system according to claim 1, wherein the specific process of the transmission performed by the switching 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 with the carrier machine to be switched and the carrier machine to be received; the switching communication module counts the initial connection time of the communication connection of the mobile phone terminal of the user with the carrier machine to be switched and the carrier machine to be received;
a2: the carrier machine to be switched sends the transmitted data to the carrier machine to be received through the mobile phone terminal of the user; meanwhile, the total transmission times of the user is increased once;
a3: the switching communication module controls the carrier machine to be switched to send a carrier signal to the carrier machine to be received in a timing mode, and when the intensity of the carrier signal received by the carrier machine to be received is larger than or equal to a set threshold value, the switching communication module controls the user mobile phone terminal to be disconnected and connected with the carrier machine to be switched and the carrier machine to be received; meanwhile, counting disconnection time; carrying out carrier signal transmission between the carrier machine to be switched and the carrier machine to be received through a transmission line, and simultaneously generating a disconnection instruction;
a4: the switching communication module transmits the initial connection time, the total transmission times and disconnection time of the user, a disconnection instruction, the carrier machine to be switched and the carrier machine to be received to the server; and after receiving the disconnection instruction, the server connects the position between the carrier machine to be switched and the carrier machine to be received through a blue line.
3. 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:
SS 1: setting the total transmission times of the user as Z Ri Acquiring single output duration of the user through initial connection time and disconnection time of the user every time, and marking the single output duration as E;
SS 2: obtaining a user single transmission value F by using a formula F = E × v 7; wherein v7 is a preset proportionality coefficient;
SS 3: the single transmission value of the user is cumulatively summed to obtain the userThe total integral is transmitted and marked as LF Ri ;
SS 4: using formula U Ri =Z Ri *v8+LF Ri V9 obtaining user switching value U Ri (ii) a Wherein v8 and v9 are both preset scaling factors.
4. The power line-based carrier communication online management system of claim 1, wherein the power line carrier information comprises power line carrier location, power line carrier supply voltage data and alarm data, and received carrier signal strength; the power line information includes a length of the transmission line; the user information comprises a name, a mobile phone number, a mobile phone terminal model, a mobile phone terminal positioning position, purchase time and mobile communication types, wherein the mobile communication types comprise 3G, 4G and 5G; the electric power personnel information comprises a name, a mobile phone number, an enrollment time and a mobile phone terminal positioning position;
the power line carrier is provided with a collecting unit for collecting alarm sound of an alarm reported by the power line carrier and an analyzing unit for matching the alarm sound; the acquisition unit transmits 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, the power line carrier is marked as a carrier to be maintained;
the power carrier machine is also provided with a voltage sensor for collecting the power supply voltage of the power carrier machine; when the voltage sensor is lower than a set threshold value, the power line carrier is marked as a carrier to be maintained; and simultaneously marking the position of the carrier machine to be maintained as alarm data.
5. The power line-based carrier communication online management system of claim 1, wherein the maintenance distribution module is configured to obtain power personnel information and distribute a carrier machine to be maintained to corresponding power personnel for maintenance, and the specific distribution steps include:
the method comprises the following steps: setting the utility flag to Dj, j =1, … …, n;
step two: obtaining a distance difference through the positioning positions of the carrier machine to be maintained and the mobile phone terminal of the power personnel, and marking the distance difference as G Dj ;
Step three: acquiring the working time of the power personnel according to the working time of the power personnel and the current system time, and marking the working time as T Dj ;
Step four: using formulasObtaining distributed maintenance value FW of electric power personnel Dj (ii) a Wherein x1, x2 and x3 are all preset proportionality coefficients; w Dj The number of the carrier machines to be maintained is not maintained by power personnel;
step five: selecting the power personnel with the maximum distribution maintenance value as selected personnel, and maintaining the carrier machine to be maintained by the selected personnel; and simultaneously, the number of the carrier machines to be maintained without maintenance of the selected personnel is increased by one.
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