CN116033295A - Communication processing system based on electric power mobile operation terminal - Google Patents

Abstract

The invention discloses a communication processing system based on an electric power mobile operation terminal, which has the technical scheme that the communication processing system comprises a detection terminal and an electric meter, wherein a weight distribution subsystem and a decoding subsystem are arranged in the detection terminal, an encoding subsystem and a transmission subsystem are arranged in the electric meter, the weight distribution subsystem comprises a login module and a weight distribution module, the login module is used for inputting maintainer information and table lookup information, the weight distribution module is used for forming a permission mark, the receiving module is used for generating an encoding instruction for controlling encoding of the encoding module, the encoding module is used for forming an encrypted data packet for encrypting electric power data, the transmitting module is used for transmitting the recombined encrypted data packet, the decoding module is used for decoding the encrypted data packet to form standard data, and the uploading module is used for uploading the standard data to a background server after the standard data is made into a data table. When the invention is used, the data is encrypted and then transmitted, so that the effect of improving the safety and the authenticity of data transmission can be realized.

Description

Communication processing system based on electric power mobile operation terminal

Technical Field

The invention relates to the technical field of power detection, in particular to a communication processing system based on a power mobile operation terminal.

Background

With the rapid development of economy and science, people's life also rapidly develops towards intelligence, thereby promoting the progress of the power grid technology. Along with the progress of the power grid technology, the electric power maintainer can master the electricity consumption condition of the user in the area more conveniently, and the electric power maintainer can conveniently meter the electricity consumption of a single user.

At present, an electric power test instrument is required to be used as detection equipment for detection, but the existing electric power test instrument transmits information in an electric meter in an infrared transmission mode, an infrared meter reading function module for transmitting the information is usually arranged in the electric meter, an infrared meter reading function module for receiving the information is configured in the electric power test instrument, a maintainer can rapidly read data information in the electric meter in an infrared transmission mode and transmit the data information to a background terminal through the electric power test instrument, the data information in the electric meter can be read and transmitted in the mode, but the safety and the authenticity of the data are low, especially when the electric meter transmits the data to the electric power test instrument for display, the data information of the electric meter is easily intercepted manually and even the data information of the electric meter is manually modified, so that the effect of tampering the data is achieved, and the authenticity of the data information of the electric meter received by the background terminal is reduced. Based on the foregoing, there is a strong need in the industry to develop techniques for accurately reading and encrypting data for transmission during mobile operations to improve data security and authenticity.

Disclosure of Invention

In view of the shortcomings pointed out in the background art, the invention aims to provide a communication processing system based on an electric mobile operation terminal, so that data can be accurately read and encrypted for transmission when mobile operation is performed, and the effect of improving the safety and the authenticity of data transmission is achieved.

In order to achieve the above purpose, the technical scheme provided by the invention is as follows:

the communication processing system based on the electric power mobile operation terminal comprises a detection terminal and an electric meter, wherein data are transmitted between the detection terminal and the electric meter through an infrared meter reading function module, a display screen is arranged on the detection terminal, a weight distribution subsystem and a decoding subsystem are configured in the detection terminal, and a coding subsystem and a transmission subsystem are configured in the electric meter;

the right-distributing subsystem comprises a login module and a right-distributing module, wherein a login strategy is configured in the login module, the login strategy comprises that an input signal is generated when a detection terminal is started, a display screen is triggered to display a login interface formed by the login module, the login interface is used for inputting an ID number of an maintainer and generating personnel information, the login strategy also comprises that an ammeter range required to be inquired is input according to the login interface and table lookup information is generated, the right-distributing strategy is configured in the right-distributing module, the right-distributing strategy comprises that a right mark corresponding to the right of the maintainer is generated according to the personnel information, and the right mark comprises a first-level right, a second-level right and a third-level right;

the coding subsystem comprises a receiving module and a coding module, wherein the receiving module is used for receiving personnel information and table lookup information and generating a coding instruction, a coding strategy is configured in the coding module, the coding strategy comprises the table lookup information according to the received coding instruction, the electric power data on a plurality of electric meters are coded according to the electric meter range set in the table lookup information and form an encrypted data packet, and the encrypted data packet comprises primary sub-data, secondary sub-data and tertiary sub-data;

the transmission subsystem comprises a sending module, wherein the sending module is used for retrieving the encrypted data packet and transmitting the encrypted data packet to the monitoring terminal through the infrared meter reading function module;

the decoding subsystem comprises a decoding module and an uploading module, wherein a decoding strategy is configured in the decoding module, the decoding strategy comprises the steps of calling an encrypted data packet and an authority mark, a decoding key is generated according to the authority mark, the decoding key generated by the primary authority corresponds to the decrypted primary sub-data, the decoding key generated by the secondary authority corresponds to the decrypted secondary sub-data, the decoding key generated by the tertiary authority corresponds to the decrypted tertiary sub-data, the decoding key decrypts the encrypted data packet and then generates standard data, and a tabulation strategy is configured in the uploading module, and comprises the steps of calling the standard data, forming a data table according to the standard data and uploading the data table to a background server.

Further, the composition of the encrypted data packet comprises a region authority code, a district code, a household number code, a numerical code and a key index, wherein the region authority code comprises a provincial level code, a municipal level code and a district level code, the provincial level code corresponds to one-level authority in the authority mark, the municipal level code corresponds to two-level authority in the authority mark, the district level code corresponds to three-level authority in the authority mark, a transition guide is further arranged between the region authority code and the household number code, a user guide is further arranged between the household number code and the household number code, and a key guide is further arranged between the household number code and the data code.

Further, the coding strategy further comprises coding logic corresponding to different authority mark levels, the coding logic comprises primary sub-logic, secondary sub-logic and tertiary sub-logic, and the coding strategy specifically comprises:

the method comprises the steps of matching a corresponding primary sub-logic with a primary authority, forming a household number code corresponding to the primary authority by utilizing the primary sub-logic, calling a numerical value of an ammeter corresponding to the household number code to form a numerical value code by taking a provincial code as a regional authority code, and forming corresponding primary sub-data;

matching the corresponding secondary sub-logic with the secondary rights, forming a user number code corresponding to the secondary rights by using the secondary sub-logic, calling the numerical value of the ammeter corresponding to the user number code to form a numerical value code by using the municipal code as the regional rights code, and forming corresponding secondary sub-data;

the method comprises the steps of matching corresponding three-level sub-logics with three-level authorities, forming a household number code corresponding to the three-level authorities by using the three-level sub-logics, calling the numerical value of an ammeter corresponding to the household number code to form a numerical value code by using zone-level codes as zone authority codes, and forming corresponding three-level sub-data;

the numerical codes are formed by sequencing numerical values displayed by the ammeter in reverse order;

the coding module packages the coded primary sub data, the coded secondary sub data and the coded tertiary sub data to form an encrypted data packet.

Further, the first-level sub-logic forms a user number code corresponding to the first-level authority specifically as follows:

firstly, corresponding the numbers in the family numbers into letters or special symbols in the corresponding sequence in an alphabet;

wherein 1 in the family number corresponds to the letter A, 9 in the family number corresponds to the letter I, and 0 in the family number corresponds to the special symbol;

corresponding the corresponding letters into numbers in a 9-key input method;

the corresponding relation is specifically as follows: letter a is the first digit of 1 in the nine keys, for which letter a corresponds to 11, and letter I is the third digit of 3 in the nine keys, for which letter I corresponds to 33.

Further, the secondary sub-logic forms a user number code corresponding to the secondary authority specifically as follows:

firstly, judging whether the user number is odd or even;

if the number is even, equally dividing the household numbers to form a front household number and a rear household number, and sequentially inserting the rear household number into the front household number to form a household number code;

if the number is odd, the number is symmetrically split into a front section number and a rear section number along an intermediate number, the intermediate number is positioned at the end of the front section number, and the rear section number and the front section number are sequentially inserted into the front section number to form a number code.

Further, the third-level sub-logic forms a user number code corresponding to the third-level authority specifically as follows:

firstly, corresponding the numbers in the family numbers into letters or special symbols in the corresponding sequence in an alphabet;

wherein 1 in the family number corresponds to the letter a, 9 in the family number corresponds to the letter I, and 0 in the family number corresponds to the special symbol.

Further, a tail folding strategy is configured in the sending module, and the tail folding strategy specifically comprises:

the encrypted data packet is fetched and recombined, when the encrypted data packet is recombined, a user guide is taken as a boundary, the user number code, the numerical code and the key guide after the user guide are moved to the front of the region authority code, and the key guide is moved to the front of the user number code to form the composition sequence as follows: key index, user number code, key-in guide, numeric code, region authority code, transition guide, affiliated cell code and encrypted data packet of user guide.

Further, the personnel information generated according to the ID number comprises a permission character, a responsible region character and a number, and the right allocation strategy specifically comprises:

the authority symbol corresponds to the region authority code, the corresponding region authority code is judged according to the authority symbol in the personnel information to form a corresponding authority mark, the authority mark is correspondingly characterized as a first-level authority if the authority symbol corresponds to a provincial level code, the authority mark is correspondingly characterized as a second-level authority if the authority symbol corresponds to a municipal level code, and the authority mark is correspondingly characterized as a third-level authority if the authority symbol corresponds to a regional level code.

Further, the decoding strategy specifically includes:

after receiving the encrypted data packet, firstly resetting and combining the encrypted data packet formed by the tail folding strategy to form an encrypted data packet with region authority coding, transition guide symbol, belonged cell coding, user guide symbol, user number coding, key-in guide symbol, numerical code and key guide symbol;

the method comprises the steps of forming a decoding key according to authority marks of corresponding authority identifiers in personnel information, carrying out code adding on corresponding sub-data in encrypted data by the decoding key to generate standard data and displaying the standard data on a display screen of detection equipment, decoding region authority codes into region information in the standard data, decoding a cell code to which the region authority codes belong into cell information, decoding a household number code into household number information, decoding a numerical code into a power numerical value, wherein the region information represents the province, the city and the district positions of an ammeter where the ammeter is located, the cell information represents the district where the ammeter is located, the household number information represents a span, a unit and a room where the ammeter is located, and the power numerical value represents the power consumption of a user.

Further, the tabulation strategy specifically includes:

the method comprises the steps of extracting cell information, household number information and electric power values in standard data, recording to form input information, arranging the input information, uniformly arranging according to the same cell information, further arranging according to the same unit in the same unit, arranging no room according to the size sequence, and recording the electric power values corresponding to the household number information and the corresponding household number information to form a data table.

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

according to the invention, personnel information is correspondingly generated according to ID codes of maintenance personnel, corresponding permission marks are generated according to the personnel information, so that the maintenance personnel cannot execute operations beyond corresponding permission, when the meter is read, an encoding module configured in the ammeter encodes and encrypts electric data in the ammeter, an encrypted data packet formed by encryption comprises sub-data which can be decoded by different permission marks, after the encrypted data packet is sent to a detection terminal, a decoding module in the detection terminal generates a corresponding decoding key according to the permission marks corresponding to the personnel information, the decoding key decrypts the corresponding sub-data in the encrypted data packet, thereby forming standard data for display on a display screen, the maintenance personnel obtains the electricity consumption of a user through obtaining the standard data, the detection terminal sends the standard data after the meter reading to a background server according to a meter making strategy, the encrypted transmission of the data is realized, the corresponding decoding mode is set through the corresponding permission marks, the encrypted transmission of the data is realized, and the effect of improving the safety and the authenticity of the data transmission is achieved.

Drawings

Fig. 1 is a schematic diagram of system module connection provided in an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

As shown in FIG. 1, the communication processing system based on the electric power mobile operation terminal comprises a detection terminal and an ammeter, wherein the detection terminal is in communication connection with the ammeter through an infrared meter reading function module; the detection terminal is provided with a display screen, the detection terminal is internally provided with a weight distribution subsystem and a decoding subsystem, and the ammeter is internally provided with a coding subsystem and a transmission subsystem. It should be noted that, the infrared meter reading function module is a function module in the prior art, and the structure and the operation principle thereof all adopt the prior art, and are not described herein.

The right-distributing subsystem comprises a login module and a right-distributing module, wherein a login strategy is configured in the login module, the login strategy comprises that an input signal is generated when a detection terminal is started, a display screen is triggered to display a login interface formed by the login module, the login interface is used for inputting an ID number of an maintainer and generating personnel information, the login strategy further comprises that an ammeter range to be inquired is input according to the login interface and lookup information is generated, the lookup information characterizes ammeter information in a set range, the right-distributing strategy is configured in the right-distributing module, the right-distributing strategy comprises that a right mark corresponding to the rights of the maintainer is generated according to the personnel information, and the right mark comprises primary rights, secondary rights and tertiary rights.

The coding subsystem comprises a receiving module and a coding module, wherein the receiving module is used for receiving personnel information and table lookup information and generating coding instructions, so that when an ID number of an maintainer and an ammeter range to be queried are input in a detection terminal, the detection terminal generates a meter reading instruction, the control receiving module generates the coding instruction when the ammeter receives the meter reading instruction, the coding module is internally provided with a coding strategy, the coding strategy comprises the table lookup information according to the received coding instruction, and the electric power data on a plurality of ammeter are coded according to the ammeter range set in the table lookup information and form an encrypted data packet, and the encrypted data packet comprises primary sub-data, secondary sub-data and tertiary sub-data;

the transmission subsystem comprises a sending module, wherein the sending module is used for calling the encrypted data packet, recombining the encrypted data packet to form a recombined encrypted data packet, and transmitting the recombined encrypted data packet to the detection terminal through the infrared meter reading function module.

The encrypted data packet comprises a region authority code, a community code, a household number code, a numerical code and a key index, wherein the region authority code comprises a provincial level code, a municipal level code and a regional level code, the provincial level code corresponds to a first level authority in an authority mark, the municipal level code corresponds to a second level authority in the authority mark, the regional level code corresponds to a third level authority in the authority mark, a transition guide is further arranged between the region authority code and the community code, a user guide is further arranged between the community code and the household number code, and a key guide is further arranged between the household number code and the data code, so that the encrypted data packet comprises: region authority codes, transitional directors, cell codes, user directors, user number codes, key-in directors, numerical codes and key-in marks are distinguished by the transitional directors, the user directors and the key-in directors.

The personnel information generated according to the ID number comprises a permission character, a responsible region character and a number, and the allocation policy specifically comprises:

the authority symbol corresponds to the region authority code, the corresponding region authority code is judged to form a corresponding authority mark according to the authority symbol in the personnel information, the authority mark is correspondingly characterized as a first-level authority if the authority symbol corresponds to the provincial level code, the authority mark is correspondingly characterized as a second-level authority if the authority symbol corresponds to the municipal level code, and the authority mark is correspondingly characterized as a third-level authority if the authority symbol corresponds to the regional level code, so that the authority operation corresponding to the maintainer is matched according to the authority symbol.

The coding strategy also comprises coding logic corresponding to different authority mark levels, wherein the coding logic comprises a first-level sub-logic, a second-level sub-logic and a third-level sub-logic, and the coding strategy specifically comprises:

the method comprises the steps of matching a corresponding primary sub-logic with a primary authority, forming a household number code corresponding to the primary authority by utilizing the primary sub-logic, calling a numerical value of an ammeter corresponding to the household number code to form a numerical value code by taking a provincial code as a regional authority code, and forming corresponding primary sub-data;

matching the corresponding secondary sub-logic with the secondary rights, forming a user number code corresponding to the secondary rights by using the secondary sub-logic, calling the numerical value of the ammeter corresponding to the user number code to form a numerical value code by using the municipal code as the regional rights code, and forming corresponding secondary sub-data;

the method comprises the steps of matching corresponding three-level sub-logics with three-level authorities, forming a household number code corresponding to the three-level authorities by using the three-level sub-logics, calling the numerical value of an ammeter corresponding to the household number code to form a numerical value code by using zone-level codes as zone authority codes, and forming corresponding three-level sub-data;

the numerical codes are formed by sequencing the numerical values displayed by the ammeter in reverse order;

the coding module packs the coded primary sub data, the coded secondary sub data and the coded tertiary sub data to form an encrypted data packet.

The first-level sub-logic forms a user number code corresponding to the first-level authority specifically as follows:

firstly, corresponding the numbers in the family numbers into letters or special symbols in the corresponding sequence in an alphabet;

wherein 1 in the family number corresponds to the letter A, 9 in the family number corresponds to the letter I, and 0 in the family number corresponds to the special symbol;

corresponding the corresponding letters into numbers in a 9-key input method;

the corresponding relation is specifically as follows: letter a is the first digit of 1 in the nine keys, for which letter a corresponds to 11, and letter I is the third digit of 3 in the nine keys, for which letter I corresponds to 33. For example: when the user number in the standard data is 184607, namely 184 units 607 room, the number is corresponding to the letter or special symbol in the corresponding sequence in the alphabet, namely: AHDF G, the number in the 9-key input method corresponding to the corresponding letter is: a corresponds to 11, h corresponds to 42, d corresponds to 21, f corresponds to 23, or G corresponds to 41, so the final household number is encoded as: 11422123*41.

The second-level sub-logic forms a user number code corresponding to the second-level authority specifically as follows:

firstly, judging whether the user number is odd or even;

if the number is even, equally dividing the household numbers to form a front household number and a rear household number, and sequentially inserting the rear household number into the front household number to form a household number code;

if the number is odd, the number is symmetrically split into a front section number and a rear section number along an intermediate number, the intermediate number is positioned at the end of the front section number, and the rear section number and the front section number are sequentially inserted into the front section number to form a number code.

For example: the user number in the standard data is 184607, namely when the number of the front section is 18 pieces of 4 units 607 room: 184, the back-end family number is 607, and the back-end family number is inserted in the front-end family number to form: 168047. if the number is odd, for example, the user number in the standard data is: 1841102, i.e., 184 units 1102 rooms, the front household number is: 184, the middle 1 is an independent number and is connected in parallel with the front section of the user number, and the rear section of the user number is: 102, inserting the rear section of the family number into the front section of the family number to form a family number code: 1108241.

the user number codes for forming the corresponding three-level authority by the three-level sub-logic are specifically as follows:

firstly, corresponding the numbers in the family numbers into letters or special symbols in the corresponding sequence in an alphabet;

wherein 1 in the family number corresponds to letter a, 9 in the family number corresponds to letter I, and 0 in the family number corresponds to special symbol, for example: when the household number in the standard data is 184607, namely 184 units 607 room, the household number codes formed by letters or special symbols with corresponding sequences in the numerical value corresponding alphabet are: AHDF G.

The sending module is internally configured with a tail folding strategy, and the tail folding strategy is specifically as follows:

the encrypted data packet is fetched and recombined, when the encrypted data packet is recombined, a user guide is taken as a boundary, the user number code, the numerical code and the key guide after the user guide are moved to the front of the region authority code, and the key guide is moved to the front of the user number code to form the composition sequence as follows: key index, user number code, key-in guide, numeric code, region authority code, transition guide, affiliated cell code and encrypted data packet of user guide.

The decoding subsystem comprises a decoding module and an uploading module, wherein a decoding strategy is configured in the decoding module, the decoding strategy comprises the steps of retrieving an encrypted data packet and an authority mark, generating a decoding key according to the authority mark, the decoding key generated by the first-level authority corresponds to the first-level sub-data decryption, the decoding key generated by the second-level authority corresponds to the second-level sub-data decryption, the decoding key generated by the third-level authority corresponds to the third-level sub-data decryption, and the decoding key generates standard data after decrypting the encrypted data packet.

The decoding strategy specifically comprises the following steps:

after receiving the encrypted data packet, firstly resetting and combining the encrypted data packet formed by the tail folding strategy to form an encrypted data packet with region authority coding, transition guide symbol, belonged cell coding, user guide symbol, user number coding, key-in guide symbol, numerical code and key guide symbol;

and forming a decoding key according to the authority mark of the corresponding authority symbol in the personnel information, adding codes to the corresponding sub-data in the encrypted data by the decoding key to generate standard data, displaying the standard data on a display screen of the detection equipment, decoding the region authority code into region information in the standard data, decoding the region code into region information, decoding the household code into household number information, decoding the numerical code into electric power numerical values, wherein the region information represents the province, the city and the district position of the ammeter where the ammeter is read, the region information represents the district where the ammeter is read, the household number information represents the span, the unit and the room where the ammeter is read, and the electric power numerical values represent the electricity consumption used by a user.

The uploading module is internally provided with a tabulation strategy, the tabulation strategy comprises the steps of calling standard data, forming a data table according to the standard data, and uploading the data table to a background server, and the tabulation strategy comprises the following specific steps:

the method comprises the steps of extracting cell information, household number information and electric power values in standard data, recording to form input information, arranging the input information, uniformly arranging according to the same cell information, further arranging according to the same unit in the same unit, arranging no room according to the size sequence, and recording the electric power values corresponding to the household number information and the corresponding household number information to form a data table, wherein the data table is shown in table 1.

TABLE 1

Working principle and effect:

the method comprises the steps that corresponding personnel information is generated according to ID codes of maintenance personnel, corresponding permission marks are generated according to the personnel information, the maintenance personnel cannot execute operations except corresponding permission, when meter reading is conducted, an encoding module configured in an ammeter encodes and encrypts electric data in the ammeter, an encrypted data packet formed through encryption comprises sub-data which can be decoded through different permission marks, after the encrypted data packet is sent to a detection terminal, a decoding module in the detection terminal generates a corresponding decoding key according to the permission marks corresponding to the personnel information, the decoding key decrypts the corresponding sub-data in the encrypted data packet, so that standard data used for displaying on a display screen are formed, the maintenance personnel obtains electricity consumption of a user through obtaining the standard data, the detection terminal sends the standard data after meter reading to a background server according to a meter making strategy, encrypted transmission of the data is achieved, decoding is conducted through a corresponding decoding mode set through the corresponding permission marks, and the effect of improving safety and authenticity of the data transmission is achieved.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A communication processing system based on an electric power mobile operation terminal is characterized in that: the meter reading device comprises a detection terminal and an electric meter, wherein the detection terminal is in communication connection with the electric meter through an infrared meter reading function module, a display screen is arranged on the detection terminal, a weight distribution subsystem and a decoding subsystem are configured in the detection terminal, and a coding subsystem and a transmission subsystem are configured in the electric meter;

the right-distributing subsystem comprises a login module and a right-distributing module, wherein a login strategy is configured in the login module, the login strategy comprises that an input signal is generated when a detection terminal is started, a display screen is triggered to display a login interface formed by the login module, the login interface is used for inputting an ID number of an maintainer and generating personnel information, the login strategy further comprises that an ammeter range required to be inquired is input according to the login interface and table lookup information is generated, the right-distributing strategy is configured in the right-distributing module, the right-distributing strategy comprises that a right mark corresponding to the rights of the maintainer is generated according to the personnel information, and the right mark comprises a primary right, a secondary right and a tertiary right;

the coding subsystem comprises a receiving module and a coding module, wherein the receiving module is used for receiving personnel information and table lookup information and generating a coding instruction, a coding strategy is configured in the coding module, the coding strategy comprises the table lookup information according to the received coding instruction, the electric power data on a plurality of electric meters are coded according to the electric meter range set in the table lookup information and form an encrypted data packet, and the encrypted data packet comprises primary sub-data, secondary sub-data and tertiary sub-data;

the transmission subsystem comprises a sending module, wherein the sending module is used for retrieving the encrypted data packet, recombining the encrypted data packet to form a recombined encrypted data packet, and transmitting the recombined encrypted data packet to the detection terminal through the infrared meter reading function module;

the decoding subsystem comprises a decoding module and an uploading module, wherein a decoding strategy is configured in the decoding module, the decoding strategy comprises a calling authority mark and a reorganized encrypted data packet, a decoding key is generated according to the authority mark, the decoding key generated by the first-level authority corresponds to decryption first-level sub-data, the decoding key generated by the second-level authority corresponds to decryption second-level sub-data, the decoding key generated by the third-level authority corresponds to decryption third-level sub-data, the decoding key decrypts the encrypted data packet and generates standard data, and a tabulation strategy is configured in the uploading module, and comprises the calling standard data and forms a data table according to the standard data and uploads the data table to a background server.

2. The communication processing system based on the electric power mobile operation terminal according to claim 1, wherein: the encrypted data packet comprises a region authority code, a district code, a household code, a numerical code and a key index, wherein the region authority code comprises a provincial level code, a municipal level code and a district level code, the provincial level code corresponds to a first-level authority in an authority mark, the municipal level code corresponds to a second-level authority in the authority mark, the district level code corresponds to a third-level authority in the authority mark, a transition guide is further arranged between the region authority code and the household code, a user guide is further arranged between the household code and the household code, and a typing guide is further arranged between the household code and the data code.

3. The communication processing system based on the electric power mobile operation terminal according to claim 2, wherein: the coding strategy also comprises coding logic corresponding to different authority mark levels, the coding logic comprises a first-level sub-logic, a second-level sub-logic and a third-level sub-logic, and the coding strategy specifically comprises:

the method comprises the steps of matching a corresponding primary sub-logic with a primary authority, forming a household number code corresponding to the primary authority by utilizing the primary sub-logic, calling a numerical value of an ammeter corresponding to the household number code to form a numerical value code by taking a provincial code as a regional authority code, and forming corresponding primary sub-data;

matching the corresponding secondary sub-logic with the secondary rights, forming a user number code corresponding to the secondary rights by using the secondary sub-logic, calling the numerical value of the ammeter corresponding to the user number code to form a numerical value code by using the municipal code as the regional rights code, and forming corresponding secondary sub-data;

the method comprises the steps of matching corresponding three-level sub-logics with three-level authorities, forming a household number code corresponding to the three-level authorities by using the three-level sub-logics, calling the numerical value of an ammeter corresponding to the household number code to form a numerical value code by using zone-level codes as zone authority codes, and forming corresponding three-level sub-data;

the numerical codes are formed by sequencing numerical values displayed by the ammeter in reverse order;

the coding module packages the coded primary sub data, the coded secondary sub data and the coded tertiary sub data to form an encrypted data packet.

4. A communication processing system based on an electric power mobile operation terminal according to claim 3, wherein: the first-level sub-logic forms a user number code corresponding to the first-level authority specifically as follows:

firstly, corresponding the numbers in the family numbers into letters or special symbols in the corresponding sequence in an alphabet;

wherein 1 in the family number corresponds to the letter A, 9 in the family number corresponds to the letter I, and 0 in the family number corresponds to the special symbol;

corresponding the corresponding letters into numbers in a 9-key input method;

the corresponding relation is specifically as follows: letter a is the first digit of 1 in the nine keys, for which letter a corresponds to 11, and letter I is the third digit of 3 in the nine keys, for which letter I corresponds to 33.

5. A communication processing system based on an electric power mobile operation terminal according to claim 3, wherein: the secondary sub-logic forms a user number code corresponding to the secondary authority specifically as follows:

firstly, judging whether the user number is odd or even;

if the number is even, equally dividing the household numbers to form a front household number and a rear household number, and sequentially inserting the rear household number into the front household number to form a household number code;

if the number is odd, the number is symmetrically split into a front section number and a rear section number along an intermediate number, the intermediate number is positioned at the end of the front section number, and the rear section number and the front section number are sequentially inserted into the front section number to form a number code.

6. A communication processing system based on an electric power mobile operation terminal according to claim 3, wherein: the third-level sub-logic forms a user number code corresponding to the third-level authority specifically as follows:

firstly, corresponding the numbers in the family numbers into letters or special symbols in the corresponding sequence in an alphabet;

wherein 1 in the family number corresponds to the letter a, 9 in the family number corresponds to the letter I, and 0 in the family number corresponds to the special symbol.

7. The power mobile work terminal-based communication processing system according to any one of claims 2 to 6, wherein: the sending module is internally configured with a tail folding strategy, and the tail folding strategy specifically comprises:

the encrypted data packet is fetched and recombined, when the encrypted data packet is recombined, a user guide is taken as a boundary, the user number code, the numerical code and the key guide after the user guide are moved to the front of the region authority code, and the key guide is moved to the front of the user number code to form the composition sequence as follows: key index, user number code, key-in guide, numeric code, region authority code, transition guide, belonged cell code and user guide.

8. The communication processing system based on the electric power mobile operation terminal according to claim 7, wherein: the personnel information generated according to the ID number comprises a permission character, a responsible region character and a number, and the right allocation strategy specifically comprises:

the authority symbol corresponds to the region authority code, the corresponding region authority code is judged according to the authority symbol in the personnel information to form a corresponding authority mark, the authority mark is correspondingly characterized as a first-level authority if the authority symbol corresponds to a provincial level code, the authority mark is correspondingly characterized as a second-level authority if the authority symbol corresponds to a municipal level code, and the authority mark is correspondingly characterized as a third-level authority if the authority symbol corresponds to a regional level code.

9. The communication processing system based on the electric power mobile operation terminal according to claim 8, wherein: the decoding strategy specifically comprises the following steps:

after receiving the encrypted data packet, firstly resetting and combining the encrypted data packet formed by the tail folding strategy to form an encrypted data packet with region authority coding, transition guide symbol, belonged cell coding, user guide symbol, user number coding, key-in guide symbol, numerical code and key guide symbol;

the method comprises the steps of forming a decoding key according to authority marks of corresponding authority identifiers in personnel information, carrying out code adding on corresponding sub-data in encrypted data by the decoding key to generate standard data and displaying the standard data on a display screen of detection equipment, decoding region authority codes into region information in the standard data, decoding a cell code to which the region authority codes belong into cell information, decoding a household number code into household number information, decoding a numerical code into a power numerical value, wherein the region information represents the province, the city and the district positions of an ammeter where the ammeter is located, the cell information represents the district where the ammeter is located, the household number information represents a span, a unit and a room where the ammeter is located, and the power numerical value represents the power consumption of a user.

10. The communication processing system based on the electric power mobile operation terminal according to claim 7, wherein: the tabulation strategy specifically comprises the following steps:

the method comprises the steps of extracting cell information, household number information and electric power values in standard data, recording to form input information, arranging the input information, uniformly arranging according to the same cell information, further arranging according to the same unit in the same unit, arranging no room according to the size sequence, and recording the electric power values corresponding to the household number information and the corresponding household number information to form a data table.

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