CN116192847A

CN116192847A - Block chain network dividing system adopting GPS positioning

Info

Publication number: CN116192847A
Application number: CN202310097176.2A
Authority: CN
Inventors: 陈鹏飞
Original assignee: Nanjing Irobot Information Technology Co ltd
Current assignee: Nanjing Irobot Information Technology Co ltd
Priority date: 2023-02-01
Filing date: 2023-02-01
Publication date: 2023-05-30

Abstract

The invention discloses a block chain network dividing system adopting GPS positioning, which relates to the technical field of block chains and comprises a positioning request module and a network connection module, wherein the output end of the positioning request module is connected with a GPS positioning module, and the output end of the GPS positioning module is connected with a network matching module. The block chain network dividing system adopting the GPS positioning generates network positioning requests through the positioning request module, then positions the GPS positioning module, and then matches the GPS positioning module with the area dividing module through the network matching module, so that the network is divided according to the parameter standard set by the parameter setting module, a network user can conveniently select an optimum network according to the geographic position of the network user, a signal monitoring module is arranged to monitor the network connection condition of the network connection module, the signal strength is judged by matching with the signal judging module, different feedback is made for different signal strengths, and the network use effect is improved.

Description

Block chain network dividing system adopting GPS positioning

Technical Field

The invention relates to the technical field of blockchain, in particular to a blockchain network dividing system adopting GPS positioning.

Background

Blockchains are a term of art in information technology. Essentially, it is a shared database in which data or information is stored. Compared with the traditional network, the blockchain has two main core characteristics: firstly, the data is difficult to tamper, secondly, the data is decentralised, based on the two characteristics, the information recorded by the blockchain is more real and reliable, and the problem that people are mutually not trusted can be solved. The network dividing system based on the block chain is one of important ways of network management, and can automatically divide the area of the network so as to divide the management responsibilities of network management staff, however, the current network dividing system still has the following defects:

firstly, the division standard of the existing network division system is relatively general, the division standardization cannot be realized, users with different geographic coordinates cannot be connected with the most suitable network according to the coordinates when carrying out network connection and access, the use effect of the users is affected, meanwhile, the regional management of the network is inconvenient, and the burden and difficulty of network management are increased;

secondly, the existing network dividing system cannot monitor and judge the user connection network in real time, when the geographic position of the user changes in the connection process, the system cannot select a more suitable network to connect according to the new coordinate position in time, and certain leakage risk exists in data generated in the use process of the user.

Therefore, there is an urgent need to improve the above-mentioned drawbacks, and the present invention is directed to the present structure and shortcomings, and provides a blockchain network dividing system using GPS positioning.

Disclosure of Invention

The invention aims to provide a block chain network dividing system adopting GPS positioning to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an adopt block chain network division system of GPS location, includes location request module and network connection module, the output of location request module is connected with GPS location module, and the output of GPS location module is connected with network matching module to the output of network matching module is connected with network selection module, and the output of network selection module is connected with network connection module, the output of network connection module is connected with signal discrimination module, and signal discrimination module's an output is connected with the no trace access module to signal discrimination module's another output links to each other with GPS location module's input, the input of network matching module is connected with regional division module, and regional division module's input is connected with parameter setting module, network connection module's input is connected with signal monitoring module.

Further, the GPS positioning module comprises a signal sending unit, a satellite positioning unit and a terminal receiving unit, wherein the output end of the signal sending unit is connected with the satellite positioning unit, and the output end of the satellite positioning unit is connected with the terminal receiving unit.

Further, the network matching module comprises an information comparison unit, a network ordering unit and a result output unit, wherein the output end of the information comparison unit is connected with the network ordering unit, and the output end of the network ordering unit is connected with the result output unit.

Further, the network selection module comprises a manual selection module and an automatic selection module, wherein the output end of the manual selection module is connected with the automatic selection module, the automatic selection module comprises a selection setting unit, an automatic processing unit and a confirmation selection unit, the output end of the selection setting unit is connected with the automatic processing unit, and the output end of the automatic processing unit is connected with the confirmation selection unit.

Further, the selection setting unit comprises a signal selection unit and a region selection unit, wherein the signal selection unit is used for setting signal selection priority and automatically connecting networks with signals reaching a set standard, and the region selection unit is used for setting region selection priority and automatically connecting networks within a set region range.

Furthermore, the traceless access module comprises a network access module and a data processing module, wherein the output end of the network access module is connected with the data processing module, the data processing module comprises a local data processing unit, a cloud data backup unit and an encryption unit, and the output end of the data processing module is connected with the input end of the encryption unit.

Furthermore, the local data processing unit can clear local cache data generated by network access, the cloud data backup unit can backup the data generated by the network access and send the backup data to a user cloud private account, the encryption unit can encrypt the data backed up by the cloud data backup unit, and the user can read the encrypted content only by using the key.

Further, the parameter setting module comprises a standard setting module and a content setting module, wherein the standard setting module is used for setting the standard of the network division, and the content setting module is used for setting the content of the network division.

Further, the standard setting module comprises an administrative unit setting unit, a longitude and latitude setting unit and a time zone setting unit, wherein the administrative unit setting unit is used for setting an administrative unit as a division standard, the longitude and latitude setting unit is used for setting a longitude and latitude as a division standard, and the time zone setting unit is used for setting a time zone as the division standard.

Further, the use flow of the blockchain network dividing system adopting GPS positioning is as follows:

step one, an operator sends out a network positioning request through a positioning request module, then a GPS positioning module locks the geographical position of the request, the GPS positioning module is divided into a signal sending unit, a satellite positioning unit and a terminal receiving unit, the position information is sent to a space signal station through the signal sending unit, the satellite positioning unit is used for receiving and identifying the received position information, the purpose of accurate positioning is achieved, the positioning information is sent to a ground service terminal, and the terminal receiving unit is used for receiving the positioning information;

dividing each parameter of the network dividing operation by an operator through a parameter setting module, wherein the parameter setting module comprises a standard setting module and a content setting module which are respectively used for setting the standard and the content of the network dividing operation, the standard setting module comprises an administrative unit setting unit, a longitude and latitude setting unit and a time zone setting unit which are respectively used for setting the administrative unit, the longitude and latitude and the time zone as dividing standards, the setting of the priority of the dividing standard is completed through the modules, and then the dividing operation is carried out by a region dividing module according to the dividing parameters set by the parameter setting module;

step three, after receiving the positioning information transmitted by the GPS positioning module, the network matching module invokes the network divided by the area dividing module according to the positioning information, compares and sorts the information of the GPS positioning module and the area dividing module through the information comparing unit, the network sorting unit and the result output unit, and outputs a matching result to realize the network attribution division of the positioning request;

when a network user selects a network, the network selection operation can be completed through a network selection module according to the geographical position of the network user, the network selection module comprises a manual selection module and an automatic selection module, the automatic selection module can automatically perform the selection operation according to the program logic in the module, the operation is divided into three steps of a selection setting unit, an automatic processing unit and a confirmation selection unit, wherein the selection setting unit further comprises a signal selection unit and a region selection unit, the signal selection priority is set through the signal selection unit and is used for automatically connecting the network with the signal reaching the set standard, the region selection priority is set through the region selection unit and is used for automatically connecting the network within the set region range, if the automatically selected network does not meet the user requirement, the manual selection module can be used for selecting, and then the network connection module is used for connecting the selected network;

step five, after a network user connects a network through a network connection module, a signal monitoring module monitors signals of the connected network, and judges signal intensity through a signal judging module, if the network signal intensity is lower than a normal use standard, the network geographic position is subjected to positioning calibration through a GPS positioning module, then the attribution of the connected network is redefined through matching and dividing, network positioning can be carried out again for the user according to the GPS positioning module, and a more suitable network is matched; if the network signal strength meets the normal use standard, the network is normally used through a traceless access module, the traceless access module comprises a network access module and a data processing module, the data processing module further comprises a local data processing unit, a cloud data backup unit and an encryption unit, local cache data generated by network access are cleaned through the local data processing unit, meanwhile, the data generated by network access are backed up through the cloud data backup unit, backup data are sent to a user cloud private account, the data backed up by the cloud data backup unit are encrypted by the encryption unit, and the user can read the encrypted content only by using a secret key.

The invention provides a block chain network dividing system adopting GPS positioning, which has the following beneficial effects: the block chain network dividing system adopting the GPS positioning generates network positioning requests through the positioning request module, then positions the GPS positioning module, and then matches the GPS positioning module with the area dividing module through the network matching module, so that the network is divided according to the parameter standard set by the parameter setting module, a network user can conveniently select an optimum network according to the coordinate position of the network user, a signal monitoring module is arranged to monitor the network connection condition of the network connection module, the signal strength is judged by matching with the signal judging module, different feedback is made for different signal strengths, and the network use effect is improved.

1. The invention is provided with the GPS positioning module, an operator can process the network positioning request sent by the positioning request module through the GPS positioning module, the geographic position of the network positioning request is obtained by utilizing the GPS satellite, the parameter setting module is arranged, the network area is divided by the area dividing module according to the dividing parameter set by the parameter setting module, then the network which is required to be positioned is matched with the network area divided by the area dividing module through the network matching module, the division operation of the network is realized, the improved network dividing system can rapidly divide the network according to the positioning information, and the network division is more accurate according to the set standard and the division combined with the geographic information, thereby being convenient for network users to select the most suitable network according to the coordinate position of the network users, being convenient for regional management of the network and improving the use safety of the network.

2. The invention is provided with the network selection module, the network selection module comprises a manual selection module and an automatic selection module, the automatic selection of the network can be realized through the automatic selection module, the proper network can be automatically selected for a user, the operation is reduced, the intelligent of the network use is improved, the automatic selection module is provided, when the network selection does not meet the requirement of the user, the control is manually carried out, the improved network division system extends out new functions on the basis of the network division, the manual operation in the use process of the user can be reduced, and the intelligent of the system is improved.

3. The invention is provided with the signal monitoring module, monitors the signal of the connected network through the signal monitoring module, judges the signal intensity by matching with the signal judging module, makes different feedback aiming at different signal intensities, can position the network again through the GPS positioning module when the signal intensity is weaker, and selects new network connection by combining with the network dividing result, the improved network dividing system can monitor and judge the user connected network, and when the geographic position of the user changes in the connection process, the system can select a more suitable network for connection according to the new coordinate position in time, thereby improving the network use effect.

4. The invention is provided with the traceless access module, can make corresponding processing when the user accesses the network, the traceless access module comprises the network access module and the data processing module, wherein the data processing module comprises a local data processing unit, a cloud data backup unit and an encryption unit, the local data processing unit is used for cleaning local cache data generated by the network access, the cloud data backup unit is used for backing up the cleaned data, the backup data is sent to a cloud account of the user, the encryption unit is used for encrypting the data in the cloud account, the improved network division system has good confidentiality, the data generated in the use process of the user is not easy to leak, and the cloud storage mode is used for backing up the use data, so that the user can conveniently retrieve and inquire the data at a later time, and the user can conveniently inquire the geographic position data change of the user according to the network use data.

Drawings

FIG. 1 is a schematic diagram of an overall workflow of a blockchain network partitioning system employing GPS positioning in accordance with the present invention;

FIG. 2 is a schematic diagram of a GPS positioning module workflow of a blockchain network partitioning system employing GPS positioning according to the present invention;

FIG. 3 is a schematic diagram of a network matching module of the blockchain network partitioning system using GPS positioning according to the present invention;

FIG. 4 is a schematic diagram of a network selection module workflow of a blockchain network partitioning system employing GPS positioning according to the present invention;

FIG. 5 is a schematic diagram of a workflow of a traceless access module of a blockchain network partitioning system employing GPS positioning in accordance with the present invention;

FIG. 6 is a schematic diagram of a parameter setting module of a blockchain network partitioning system using GPS positioning according to the present invention.

In the figure: 1. a positioning request module; 2. a GPS positioning module; 21. a signal transmitting unit; 22. a satellite positioning unit; 23. a terminal receiving unit; 3. a network matching module; 31. an information comparison unit; 32. a network ordering unit; 33. a result output unit; 4. a network selection module; 41. a manual selection module; 42. an automatic selection module; 421. a selection setting unit; 4211. a signal selection unit; 4212. a region selection unit; 422. an automatic processing unit; 423. a confirmation selection unit; 5. a network connection module; 6. a signal discrimination module; 7. a traceless access module; 71. a network access module; 72. a data processing module; 721. a local data processing unit; 722. the cloud data backup unit; 723. an encryption unit; 8. a parameter setting module; 81. a standard setting module; 811. an administrative unit setting unit; 812. longitude and latitude setting unit; 813. a time zone setting unit; 82. a content setting module; 9. a region dividing module; 10. and a signal monitoring module.

Description of the embodiments

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.

As shown in fig. 1, 2, 3, 4 and 6, a blockchain network dividing system adopting GPS positioning includes a positioning request module 1 and a network connection module 5, the output end of the positioning request module 1 is connected with a GPS positioning module 2, the GPS positioning module 2 includes a signal transmitting unit 21, a satellite positioning unit 22 and a terminal receiving unit 23, the output end of the signal transmitting unit 21 is connected with a satellite positioning unit 22, and the output end of the satellite positioning unit 22 is connected with a terminal receiving unit 23, through the set signal transmitting unit 21, position information can be transmitted to a space signal station, through the set satellite positioning unit 22, received position information can be received and identified, the purpose of accurate positioning is achieved, and positioning information is transmitted to a ground service terminal, through the set terminal receiving unit 23, positioning information can be received, the output end of the GPS positioning module 2 is connected with a network matching module 3, the network matching module 3 comprises an information comparing unit 31, a network ordering unit 32 and a result output unit 33, the output end of the information comparing unit 31 is connected with the network ordering unit 32, the output end of the network ordering unit 32 is connected with the result output unit 33, the information of the GPS positioning module 2 and the information of the regional division module 9 can be compared and ordered through the arranged information comparing unit 31, the network ordering unit 32 and the result output unit 33, the matching result is output, the network attribution division sending the positioning request is realized, the input end of the network matching module 3 is connected with the regional division module 9, the input end of the regional division module 9 is connected with a parameter setting module 8, the parameter setting module 8 comprises a standard setting module 81 and a content setting module 82, and the standard setting module 81 is used for setting the standard of network division, and the content setting module 82 is used for setting the content of network division, the standard setting module 81 comprises an administrative unit setting unit 811, a longitude and latitude setting unit 812 and a time zone setting unit 813, the administrative unit setting unit 811 is used for setting the administrative unit as the division standard, the longitude and latitude setting unit 812 is used for setting the longitude and latitude as the division standard, and the time zone setting unit 813 is used for setting the time zone as the division standard, and the output end of the network matching module 3 is connected with the network selection module 4, the network selection module 4 comprises a manual selection module 41 and an automatic selection module 42, and the output end of the manual selection module 41 is connected with the automatic selection module 42, through the cooperation of the manual selection module 41 and the automatic selection module 42, the maximum fitting user requirement can be met while the user operation steps are reduced, the automatic selection module 42 comprises a selection setting unit 421, an automatic processing unit 422 and a confirmation selection unit 423, and the output end of the selection unit 421 is connected with the automatic processing unit 422, and the output end of the automatic processing unit 422 is connected with the confirmation selection unit 423, the selection unit 421 comprises the signal selection unit 11 and the signal selection unit 4211, and the signal selection module 425 is connected with the network selection module 4212, and the network selection module 424 is set up and the signal area is preferably connected with the network selection module 4212.

As shown in fig. 1 and fig. 5, the input end of the network connection module 5 is connected with the signal monitoring module 10, the output end of the network connection module 5 is connected with the signal discriminating module 6, an output end of the signal discriminating module 6 is connected with the traceless access module 7, the traceless access module 7 comprises a network access module 71 and a data processing module 72, the output end of the network access module 71 is connected with the data processing module 72, the data processing module 72 comprises a local data processing unit 721, a cloud data backup unit 722 and an encryption unit 723, the output end of the data processing module 72 is connected with the input end of the encryption unit 723, the local data processing unit 721 can clear local cache data generated by network access, the cloud data backup unit 722 can backup data generated by network access and send the cloud data to a user private account, the encryption unit 723 can encrypt the backed up data of the data backup unit 722, a user can read encrypted content only by enabling a key, and the other output end of the signal discriminating module 6 is connected with the input end of the GPS positioning module 2.

In summary, as shown in fig. 1 to 6, the use flow of the blockchain network dividing system adopting GPS positioning is as follows:

step one, an operator sends out a network positioning request through a positioning request module 1, then a GPS positioning module 2 is utilized to lock the geographical position of the request, the GPS positioning module 2 is divided into three steps of a signal sending unit 21, a satellite positioning unit 22 and a terminal receiving unit 23, position information is sent to a space signal station through the signal sending unit 21, then the satellite positioning unit 22 is utilized to receive and identify the received position information, the purpose of accurate positioning is achieved, positioning information is sent to a ground service terminal, and the positioning information is received through the terminal receiving unit 23;

step two, an operator divides various parameters of the network division operation through a parameter setting module 8, wherein the parameter setting module 8 comprises a standard setting module 81 and a content setting module 82 which are respectively used for setting standards and contents of the network division, the standard setting module 81 comprises an administrative unit setting unit 811, a longitude and latitude setting unit 812 and a time zone setting unit 813 which are respectively used for setting the administrative unit, the longitude and latitude and the time zone as division standards, the setting of the priority of the division standards is completed through the modules, and then the division operation is carried out by a region division module 9 according to the division parameters set by the parameter setting module 8;

step three, after receiving the positioning information transmitted by the GPS positioning module 2, the network matching module 3 invokes the network divided by the area dividing module 9 according to the positioning information, compares and sorts the information of the GPS positioning module 2 and the area dividing module 9 through the information comparing unit 31, the network sorting unit 32 and the result output unit 33, and outputs a matching result to realize the network attribution division of the positioning request;

step four, when a network user selects a network, the network selection operation can be completed through the network selection module 4 according to the geographical position of the network user, the network selection module 4 comprises a manual selection module 41 and an automatic selection module 42, the automatic selection module 42 can automatically perform the selection operation according to the internal program logic of the module, the operation is divided into three steps of a selection setting unit 421, an automatic processing unit 422 and a confirmation selection unit 423, wherein the selection setting unit 421 comprises a signal selection unit 4211 and a region selection unit 4212, the signal selection priority is set through the signal selection unit 4211 and is used for automatically connecting the network with the signal reaching the set standard, the region selection priority is set through the region selection unit 4212 and is used for automatically connecting the network within the set region, if the automatically selected network does not meet the requirement of the user, the selection can be performed through the manual selection module 41, and then the network connection module 5 is used for connecting the selected network;

step five, after a network user connects a network through the network connection module 5, the signal monitoring module 10 monitors the signal of the connected network, judges the signal strength through the signal judging module 6, if the network signal strength is lower than the normal use standard, the network geographic position is subjected to positioning calibration again through the GPS positioning module 2, then the attribution of the connected network is redefined through matching and dividing, network positioning can be carried out again for the user according to the GPS positioning module 2, and a more suitable network is matched; if the network signal strength meets the normal use standard, the network use is normally performed through the traceless access module 7, the traceless access module 7 comprises a network access module 71 and a data processing module 72, wherein the data processing module 72 further comprises a local data processing unit 721, a cloud data backup unit 722 and an encryption unit 723, the local data processing unit 721 is used for cleaning local cache data generated by the network access, the cloud data backup unit 722 is used for backing up the data generated by the network access and sending the backup data to a user cloud private account, the encryption unit 723 is used for encrypting the data backed up by the cloud data backup unit 722, and the user can read the encrypted content only by using a key.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides an adopt blockchain network division system of GPS location, includes location request module (1) and network connection module (5), its characterized in that, the output of location request module (1) is connected with GPS location module (2), and the output of GPS location module (2) is connected with network matching module (3), and the output of network matching module (3) is connected with network selection module (4), and the output of network selection module (4) is connected with network connection module (5), the output of network connection module (5) is connected with signal discrimination module (6), and an output of signal discrimination module (6) is connected with traceless access module (7), and another output of signal discrimination module (6) links to each other with the input of GPS location module (2), the input of network matching module (3) is connected with regional division module (9), and the input of regional division module (9) is connected with parameter setting module (8), the input of network connection module (5) is connected with signal monitoring module (10).

2. The blockchain network dividing system adopting the GPS positioning according to claim 1, wherein the GPS positioning module (2) comprises a signal transmitting unit (21), a satellite positioning unit (22) and a terminal receiving unit (23), the output end of the signal transmitting unit (21) is connected with the satellite positioning unit (22), and the output end of the satellite positioning unit (22) is connected with the terminal receiving unit (23).

3. The blockchain network partitioning system adopting the GPS positioning according to claim 1, wherein the network matching module (3) comprises an information comparing unit (31), a network sorting unit (32) and a result output unit (33), wherein the output end of the information comparing unit (31) is connected with the network sorting unit (32), and the output end of the network sorting unit (32) is connected with the result output unit (33).

4. The blockchain network division system adopting the GPS positioning according to claim 1, wherein the network selection module (4) comprises a manual selection module (41) and an automatic selection module (42), the output end of the manual selection module (41) is connected with the automatic selection module (42), the automatic selection module (42) comprises a selection setting unit (421), an automatic processing unit (422) and a confirmation selection unit (423), the output end of the selection setting unit (421) is connected with the automatic processing unit (422), and the output end of the automatic processing unit (422) is connected with the confirmation selection unit (423).

5. The blockchain network partitioning system using GPS positioning according to claim 4, wherein the selection setting unit (421) includes a signal selection unit (4211) and a zone selection unit (4212), and the signal selection unit (4211) is configured to set a signal selection priority, automatically connect to a network where the signal reaches a set standard, and the zone selection unit (4212) is configured to set a zone selection priority, automatically connect to a network within a set zone.

6. The blockchain network division system adopting the GPS positioning according to claim 1, wherein the traceless access module (7) comprises a network access module (71) and a data processing module (72), the output end of the network access module (71) is connected with the data processing module (72), the data processing module (72) comprises a local data processing unit (721), a cloud data backup unit (722) and an encryption unit (723), and the output end of the data processing module (72) is connected with the input end of the encryption unit (723).

7. The blockchain network partitioning system using GPS positioning of claim 6, wherein the local data processing unit (721) can clean local cache data generated by network access, the cloud data backup unit (722) can backup data generated by network access and send the backup data to the user cloud private account, and the encryption unit (723) can encrypt the data backed up by the cloud data backup unit (722), so that the user can read the encrypted content only by using the key.

8. A blockchain network partitioning system employing GPS positioning according to claim 1, wherein the parameter setting module (8) includes a standard setting module (81) and a content setting module (82), and the standard setting module (81) is configured to set a standard of network partitioning, and the content setting module (82) is configured to set content of network partitioning.

9. The blockchain network division system using GPS positioning according to claim 8, wherein the standard setting module (81) includes an administrative unit setting unit (811), a latitude and longitude setting unit (812) and a time zone setting unit (813), and the administrative unit setting unit (811) is used for setting an administrative unit as a division standard, and the latitude and longitude setting unit (812) is used for setting a latitude and longitude as a division standard, and the time zone setting unit (813) is used for setting a time zone as a division standard.

10. A blockchain network partitioning system using GPS positioning according to any of claims 1-9, wherein the blockchain network partitioning system using GPS positioning is used as follows:

step one, an operator sends out a network positioning request through a positioning request module (1), then a GPS positioning module (2) is used for locking the geographical position where the request is sent out, the GPS positioning module (2) is divided into a signal sending unit (21), a satellite positioning unit (22) and a terminal receiving unit (23), position information is sent to a space signal station through the signal sending unit (21), then the satellite positioning unit (22) is used for receiving and identifying the received position information, the purpose of accurate positioning is achieved, positioning information is sent to a ground service terminal, and the positioning information is received through the terminal receiving unit (23);

dividing each parameter of the network dividing operation by an operator through a parameter setting module (8), wherein the parameter setting module (8) comprises a standard setting module (81) and a content setting module (82) which are respectively used for setting the standard and the content of the network dividing operation, the standard setting module (81) comprises an administrative unit setting unit (811), a longitude and latitude setting unit (812) and a time zone setting unit (813) which are respectively used for setting the administrative unit, the longitude and latitude and the time zone as dividing standards, the setting of dividing standard priority is completed through the modules, and then the dividing operation is carried out by a region dividing module (9) according to the dividing parameters set by the parameter setting module (8);

step three, after receiving the positioning information transmitted by the GPS positioning module (2), the network matching module (3) invokes the network divided by the area dividing module (9) according to the positioning information, compares and sorts the information of the GPS positioning module (2) and the area dividing module (9) through the information comparing unit (31), the network sorting unit (32) and the result output unit (33), and outputs a matching result to realize the network attribution division of the positioning request;

when a network user selects a network, the network selection operation can be completed through a network selection module (4) according to the geographical position of the network user, the network selection module (4) comprises a manual selection module (41) and an automatic selection module (42), the selection operation can be automatically performed through the automatic selection module (42) according to the internal program logic of the module, the operation is divided into a selection setting unit (421), an automatic processing unit (422) and a confirmation selection unit (423), wherein the selection setting unit (421) comprises a signal selection unit (4211) and a region selection unit (4212), the signal selection priority is set through the signal selection unit (4211) and is used for automatically connecting the network with the signal reaching the set standard, the region selection priority is set through the region selection unit (4212), if the automatically selected network does not meet the requirement of the user, the selection can be performed through the manual selection module (41), and then the network connection module (5) is used for connecting the selected network;

step five, after a network user is connected with a network through a network connection module (5), a signal monitoring module (10) monitors signals of the connected network, and judges signal strength through a signal judging module (6), if the network signal strength is lower than a normal use standard, the network geographic position is subjected to positioning calibration again through a GPS positioning module (2), then the attribution of the connected network is redefined through matching and dividing, network positioning can be carried out again for the user according to the GPS positioning module (2), and a more suitable network is matched; if the network signal strength meets the normal use standard, the network use is normally carried out through the traceless access module (7), the traceless access module (7) comprises a network access module (71) and a data processing module (72), wherein the data processing module (72) further comprises a local data processing unit (721), a cloud data backup unit (722) and an encryption unit (723), local cache data generated by the network access are cleaned through the local data processing unit (721), meanwhile, the data generated by the network access are backed up through the cloud data backup unit (722), the backup data are sent to a user cloud private account, the data backed up by the cloud data backup unit (722) are encrypted by utilizing the encryption unit (723), and the user can read the encrypted content only by using the key.