CN116567006A - Data sharing management system and method thereof - Google Patents

Abstract

The invention discloses a data sharing management system and a method thereof, and belongs to the technical field of data sharing. The invention discloses a data sharing management system, which comprises a branch system end, a total system end and a data sharing server end, wherein the branch system end is connected with the total system end through the data sharing server end. The invention solves the problems that the prior art can not sequentially connect a plurality of groups of sub-paths based on the multi-path total path, increases the path connection load pressure, reduces the data sharing stability, and has the risk of data loss to a certain extent.

Description

A data sharing management system and method thereof

technical field

The invention relates to the technical field of data sharing, in particular to a data sharing management system and a method thereof.

Background technique

The main function of data sharing is to achieve data sharing between the data owner and the data requester, and realize the equivalent exchange between the service value of the data requester and the data owner. Traditional data sharing methods mainly include two types: the first type is the distributed service bus exchange method, and the second type is the centralized data sharing method.

The Chinese patent with publication number CN107656981A discloses a data sharing and management method and system based on identification technology. The method includes the establishment of a data identification service node, a data identification configuration mechanism, a data identification analysis method, heterogeneous entry data capture, and the like. The construction of data identification service nodes is the infrastructure for data information sharing, including the construction of root nodes and leaf nodes and the construction of heterogeneous identification mechanisms; the data identification configuration mechanism is the basis of data identification management; the data identification analysis method is that identification nodes find the target database and The process of returning shared information, including parsing mechanisms and middleware; heterogeneous entry data capture provides a shared information mechanism that identifies data that can be obtained at different data capture entries. This patent realizes distributed sharing and management of data without changing the existing data management method, without fully understanding the data structure and communication methods in other applications, and without uploading data to a unified platform. But there is following defect in this patent:

Multiple groups of sub-paths cannot be connected sequentially based on the total path of multiple paths, which increases the load pressure of path connections and reduces the stability of data sharing. To a certain extent, there is a risk of data loss.

Contents of the invention

The purpose of the present invention is to provide a data sharing management system and its method, based on the multi-path total path to connect multiple groups of sub-paths sequentially, to realize data sharing between the total system end and multiple branch system ends, reduce the path connection load pressure, The stability of data sharing is improved, and the data is stored in both the main system end and the branch system end, which can effectively reduce the risk of data loss and solve the problems raised in the above-mentioned background technology.

To achieve the above object, the present invention provides the following technical solutions:

A data sharing management system, including a branch system end, a total system end and a data sharing server end, the branch system end is connected to the total system end through the data sharing server end, and is used to realize the data exchange between the total system end and multiple branch system ends shared, where

The branch system end is used to send a data sharing request command with specific shared data information to the data sharing server end, and receive specific shared data information sent by the data sharing server end that meets the needs of the branch system end;

The overall system end is used to receive the data sharing request instruction with specific shared data information sent by the data sharing server end, and send specific shared data information that meets the needs of the branch system end to the data sharing server end according to the data sharing request instruction;

The data sharing server is used to receive the data sharing request instruction with specific shared data information sent by the branch system, and transmit the received data sharing request instruction to the general system, and receive the request from the general system that meets the requirements of the branch system. specific shared data information, and transmit the received specific shared data information that meets the needs of the branch system to the branch system;

Among them, the data sharing server is used to authenticate the data sharing between the total system end and multiple branch system ends, establish a data sharing channel between the total system end and multiple branch system ends, and connect multiple Group sub-paths to realize data sharing between the total system end and multiple branch system ends.

Preferably, the data sharing server includes a data transmission module, a shared authentication module and a shared management module, wherein

The data transmission module is used to realize data transmission between the total system end and multiple branch system ends. The data transmission module includes a data sending unit and a data receiving unit. The data sending unit is used to send data to the total system end or multiple branch system ends Transmission instructions, the data receiving unit is used to receive data transmission instructions transmitted from the total system end or multiple branch system ends;

The shared authentication module is used to authenticate the data sharing between the overall system end and multiple branch system ends. After the data sharing authentication between the overall system end and multiple branch system ends, the data sharing authentication result is determined. According to the data Share authentication results and implement different data sharing strategies;

The sharing management module is used to comprehensively manage the data sharing between the main system end and multiple branch system ends, obtain the data information to be shared, preprocess the data information to be shared, and make the data information to be shared complete and accurate. Transmission to multiple branch system ends.

Preferably, the data transmission module further includes a first communication quality judging module and a second communication quality judging module;

The first communication quality judging module is used to sequentially perform communication quality detection on the main system end or multiple branch system ends, and cache the instructions to be transmitted when the communication quality is not good, and or when the communication quality of multiple branch system ends reaches the standard, perform data transmission on the instruction to be transmitted;

The second communication quality judging module is used to detect the communication quality of the data receiving unit, and buffer the instruction to be received when the communication quality is not good, and when the communication quality of the data receiving unit reaches the standard, control The data receiving unit receives the instruction to be received.

Preferably, the communication quality detection process of the first communication quality judgment module includes:

A1. The first communication quality judging module uses the first communication quality evaluation model to monitor the total system end or multiple branch system ends in real time, and obtains the communication quality index numbers corresponding to the total system end or multiple branch system ends; wherein , the first communication quality assessment model is as follows:

Among them, E ₁ represents the number of communication quality indicators acquired by the first communication quality assessment model; L ₁ represents the actual distance between the total system end or multiple branch system ends and the data sending unit; L ₀₁ represents the total system end or multiple branches The calibrated distance corresponding to the signal strength attenuation between the system end and the data sending unit; ΔW ₀₁ means that the actual distance between the total system end or multiple branch system ends and the data sending unit exceeds L ₀₁ and corresponds to each unit distance Signal strength attenuation range, and the unit distance is 1km; ΔW ₀₂ represents the signal receiving capability attenuation range caused by the device loss of the total system end or multiple branch system ends every year; n represents the total system end or multiple branch system ends The number of years of use of the branch system end; W represents the theoretical signal transmission strength corresponding to the actual distance between the total system end or multiple branch system ends and the data sending unit; _L2 represents the existence of the distance between the total system end or multiple branch system ends and their vicinity L ₀₂ represents the interference distance that can cause signal strength interference between two adjacent signal terminals; ΔW ₀₃ represents the distance between the total system terminal or multiple branch system terminals and their vicinity The theoretical interference corresponding to the actual distance between the _nearest existing communication signal interfaces corresponds to the signal interference intensity; Compared with the interference distance that can generate signal strength interference between two adjacent signal terminals, the interference signal strength generated by each unit distance is closer;

A2. Comparing the communication quality index number corresponding to the total system end or multiple branch system ends with the preset first index threshold value, and when the communication quality index number is lower than the first index threshold value, then determine The communication quality of the overall system end or the branch system end corresponding to the number of communication quality indicators lower than the first index threshold is not good;

A3. The first communication quality judging module caches the instructions to be transmitted that need to be sent when the communication quality of the overall system end or the branch system ends is not good, and the system end or multiple branch system ends When the communication quality reaches the standard, send the instruction to be transmitted to the main system end or multiple branch system ends;

The communication quality detection process of the second communication quality judgment module includes:

B1. The second communication quality judgment module uses the second communication quality evaluation model to monitor the data receiving unit in real time, and obtains the communication quality index number corresponding to the data receiving unit; wherein, the second communication quality evaluation model is as follows:

Wherein, E ₂ represents the number of communication quality indicators acquired by the second communication quality assessment model; L ₃ represents the actual distance between the data receiving unit and the total system end or multiple branch system ends; L ₀₃ represents the total system end or multiple branch system ends The calibration distance corresponding to the signal strength _attenuation between each branch system end and _the data receiving unit; The corresponding signal strength attenuation range, and the unit distance is 1km; ΔW ₀₆ represents the signal reception capability attenuation range caused by the device loss of the data receiving unit every year; m represents the number of years of use of the data receiving unit; W _e represents The theoretical signal transmission strength corresponding to the actual distance between the total system end or multiple branch system ends and the data receiving unit;

B2. Comparing the communication quality index number corresponding to the data receiving unit with a preset second index threshold value, and when the communication quality index number is lower than the second index threshold value, then determine the communication quality index number of the data receiving unit poor communication quality;

B3. The second communication quality judging module caches the receiving commands to be received by the data receiving unit when the communication quality is not good, and when the communication quality of the data receiving unit reaches the standard, sends the The data receiving unit sends the instruction to be received.

Preferably, the data sharing between the total system end and multiple branch system ends is authenticated, and the following operations are performed:

Obtain feature identification information on the branch system side;

Refer to the authentication identification information stored in the overall system end, perform data sharing authentication on the feature identification information, and determine the data sharing authentication result through the data sharing authentication between the overall system end and multiple branch system ends;

For the situation where the characteristic identification information of the branch system is within the scope of the authentication identification information in the main system, a data sharing channel between the main system and multiple branch systems is established, and multiple groups of sub-paths are sequentially connected based on the multi-path main path , realizing data sharing between the total system end and multiple branch system ends;

For the situation where the characteristic identification information of the branch system is not within the scope of the authentication identification information in the main system, the data sharing channel between the main system and multiple branch systems cannot be established, and the branch system cannot share the data information of the main system. .

Preferably, according to the result of the data sharing authentication, a data sharing channel between the total system end and multiple branch system ends is established, and multiple sub-paths are sequentially connected based on the multi-path total path, and the following operations are performed:

Based on the fact that the characteristic identification information of the branch system end is within the scope of the authentication identification information in the overall system end, a data sharing channel between the overall system end and multiple branch system ends is established, and multiple groups of sub-paths are sequentially connected based on the multi-path overall path;

The branch system end sends a data sharing request command with specific shared data information to the data sharing server end;

After the data sharing server receives the data sharing request instruction, the data sharing server sends the data sharing request instruction to the total system;

After the general system end receives the data sharing request instruction, according to the data sharing request instruction, the overall system end sends specific shared data information that meets the requirements of the branch system end to the data sharing server end;

After the data sharing server receives the specific shared data information, the data sharing server sends the specific shared data information that meets the needs of the branch system to the branch system to realize data sharing between the total system and multiple branch systems.

Preferably, the total system end sends specific shared data information that meets the requirements of the branch system end according to the data sharing request instruction, and performs the following operations:

Obtain specific shared data information in the data sharing request instruction according to the data sharing request instruction;

Extract the specific shared data information, refer to the keywords of the specific shared data information, index the specific shared data information from the data storage module of the total system end, and call the indexed specific shared data information to determine the requirements of the branch system end specific shared data information;

According to the determined specific shared data information that meets the needs of the branch system, the general system transmits the specific shared data that meets the needs of the branch system to the data sharing server;

The specific shared data information that meets the requirements of the branch system is transmitted to the branch system through the data sharing server.

Preferably, the shared management module includes a data acquisition unit, a data processing unit and a data transfer unit, wherein

The data acquisition unit is used to obtain the specific shared data information that meets the requirements of the branch system end sent from the total system end to the data sharing server end, completely extracts the obtained specific shared data information, and transmits it to the data processing unit in real time for subsequent pre-preparation. deal with;

The data processing unit is used to preprocess the received specific shared data information, filter, clean, convert and encrypt the specific shared data information, and transmit the encrypted specific shared data information to the data transfer unit in real time for data transfer;

The data transfer unit is used to transfer the received encrypted specific shared data information to the branch system in real time. The branch system receives the encrypted specific shared data information, and the branch system uses a secret key to encrypt the encrypted specific shared data. The information is decrypted, the requested specific shared data information is obtained, and the specific shared data information is stored in the branch system.

Preferably, the branch system uses a secret key to decrypt the encrypted specific shared data information, and performs the following operations:

After the branch system end and the total system end have passed the data sharing authentication, the data transmission encryption method is established between the branch system end and the total system end;

The total system side determines the specific shared data information that meets the requirements of the branch system side, and encrypts the specific shared data information;

The total system side transmits the encrypted specific shared data information to the branch system side;

The branch system end receives the encrypted specific shared data information, and the branch system end uses the secret key to decrypt the specific shared data information, and obtains the shared data based on the transmission between the total system end and the branch system end.

According to another aspect of the present invention, a data sharing management method is provided, which is applied to the above-mentioned data sharing management system, including the following steps:

S1: The branch system end sends a data sharing request command with specific shared data information to the data sharing server end, and the data sharing server end authenticates the data sharing between the overall system end and multiple branch system ends, and establishes the data sharing between the overall system end and multiple branch system ends. The data sharing channel between multiple branch system ends connects multiple sets of sub-paths sequentially based on the total path of multiple paths;

S2: The branch system end sends a data sharing request instruction with specific shared data information to the data sharing server end, and after the data sharing server end receives the data sharing request instruction, the data sharing server end sends a data sharing request instruction to the overall system end;

S3: After the total system end receives the data sharing request instruction, according to the data sharing request instruction, the total system end sends specific shared data information that meets the needs of the branch system end to the data sharing server end, and the data sharing server end sends the corresponding branch system end to the branch system end. The specific shared data information required by the system side realizes data sharing between the total system side and multiple branch system sides.

Compared with prior art, the beneficial effect of the present invention is:

1. The present invention authenticates the data sharing between the total system end and multiple branch system ends, refers to the authentication identification information stored in the total system end, and performs data sharing authentication on the feature identification information. If the feature identification information of the branch system ends Within the scope of the authentication identification information in the total system end, a data sharing channel between the total system end and multiple branch system ends is established, and multiple sub-paths are connected in turn based on the multi-path total path to realize the connection between the total system end and multiple branches. Data sharing between system ends.

2. The present invention sends a data sharing request instruction to the data sharing server end through the branch system end, the data sharing server end sends the data sharing request instruction to the total system end, and the total system end sends the data sharing request instruction to the data sharing server end according to the data sharing request instruction of the branch system. The specific shared data information required by the end, the data sharing server sends the specific shared data information to the branch system end, and the branch system end stores the specific shared data information. Based on the multi-path total path, multiple groups of sub-paths can be connected in turn to reduce the path connection load pressure. The stability of data sharing is improved, and data is stored in both the main system end and the branch system end, which can effectively reduce the risk of data loss.

3. The present invention establishes a data transmission encryption method between the branch system end and the total system end. The total system end determines the specific shared data information that meets the needs of the branch system end, and encrypts the specific shared data information, and the total system end encrypts the specific shared data information. The specific shared data information transmitted to the branch system end, the branch system end receives the encrypted specific shared data information, the branch system end uses the secret key to decrypt the specific shared data information, and obtains the data based on the transmission between the main system end and the branch system end. Share data to ensure the integrity and accuracy of data sharing.

Description of drawings

Fig. 1 is a block diagram of the data sharing management system of the present invention;

Fig. 2 is a sequence diagram of the data sharing management system of the present invention;

Fig. 3 is an algorithm diagram for authenticating data sharing between the total system end and a plurality of branch system ends of the present invention;

FIG. 4 is a flow chart of the data sharing management method of the present invention.

Detailed ways

The following will clearly and completely describe the technical solutions in the embodiments of the present invention with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the protection scope of the present invention.

In order to solve the existing problem that multiple groups of sub-paths cannot be connected sequentially based on the total path of multiple paths, the load pressure of path connection is increased, the stability of data sharing is reduced, and to a certain extent, there is a risk of data loss, please refer to Figure 1- Fig. 4, present embodiment provides following technical scheme:

A data sharing management system, including a branch system end, a total system end and a data sharing server end, the branch system end is connected to the total system end through the data sharing server end, and is used to realize the data exchange between the total system end and multiple branch system ends shared, where

The branch system end is used to send a data sharing request command with specific shared data information to the data sharing server end, and receive specific shared data information sent by the data sharing server end that meets the needs of the branch system end;

The overall system end is used to receive the data sharing request instruction with specific shared data information sent by the data sharing server end, and send specific shared data information that meets the needs of the branch system end to the data sharing server end according to the data sharing request instruction;

The data sharing server is used to receive the data sharing request instruction with specific shared data information sent by the branch system, and transmit the received data sharing request instruction to the general system, and receive the request from the general system that meets the requirements of the branch system. specific shared data information, and transmit the received specific shared data information that meets the needs of the branch system to the branch system;

Among them, the data sharing server is used to authenticate the data sharing between the total system end and multiple branch system ends, establish a data sharing channel between the total system end and multiple branch system ends, and connect multiple Group sub-paths to realize data sharing between the total system end and multiple branch system ends.

It should be noted that the branch system end sends a data sharing request command to the data sharing server, and the data sharing server authenticates the data sharing between the overall system end and multiple branch system ends, and establishes the data sharing between the overall system end and multiple branch systems. The data sharing channel between the terminals is based on the multi-path total path to connect multiple groups of sub-paths in sequence. The branch system sends a data sharing request command to the data sharing server, and the data sharing server sends a data sharing request command to the total system. The total system According to the data sharing request instruction, the end sends specific shared data information that meets the requirements of the branch system end to the data sharing server end, and the data sharing server end sends specific shared data information to the branch system end, and the branch system end stores the specific shared data information to realize the overall system end. Data sharing with multiple branch system ends, based on the multi-path total path, multiple groups of sub-paths can be connected in turn, reducing the path connection load pressure, improving the stability of data sharing, and the data is available in both the total system end and the branch system end storage, which can effectively reduce the risk of data loss.

The data sharing server includes a data transmission module, a shared authentication module and a shared management module, wherein

The data transmission module is used to realize data transmission between the total system end and multiple branch system ends. The data transmission module includes a data sending unit and a data receiving unit. The data sending unit is used to send data to the total system end or multiple branch system ends Transmission instructions, the data receiving unit is used to receive data transmission instructions transmitted from the total system end or multiple branch system ends;

The shared authentication module is used to authenticate the data sharing between the overall system end and multiple branch system ends. After the data sharing authentication between the overall system end and multiple branch system ends, the data sharing authentication result is determined. According to the data Share authentication results and implement different data sharing strategies;

The sharing management module is used to comprehensively manage the data sharing between the main system end and multiple branch system ends, obtain the data information to be shared, preprocess the data information to be shared, and make the data information to be shared complete and accurate. Transmission to multiple branch system ends.

The data transmission module also includes a first communication quality judgment module and a second communication quality judgment module;

The first communication quality judging module is used to sequentially perform communication quality detection on the main system end or multiple branch system ends, and cache the instructions to be transmitted when the communication quality is not good, and or when the communication quality of multiple branch system ends reaches the standard, perform data transmission on the instruction to be transmitted;

The second communication quality judging module is used to detect the communication quality of the data receiving unit, and buffer the instruction to be received when the communication quality is not good, and when the communication quality of the data receiving unit reaches the standard, control The data receiving unit receives the instruction to be received.

The effect of the above technical solution is: through the first communication quality judging module and the second communication quality judging module to detect the communication quality of the total system end or multiple branch system ends and the data receiving unit respectively, the data transmission quality and data transmission quality can be effectively improved. Command transmission success rate and data transmission operation stability.

Specifically, the communication quality detection process of the first communication quality judgment module includes:

A1. The first communication quality judging module uses the first communication quality evaluation model to monitor the total system end or multiple branch system ends in real time, and obtains the communication quality index numbers corresponding to the total system end or multiple branch system ends; wherein , the first communication quality assessment model is as follows:

Among them, E ₁ represents the number of communication quality indicators acquired by the first communication quality assessment model; L ₁ represents the actual distance between the total system end or multiple branch system ends and the data sending unit; L ₀₁ represents the total system end or multiple branches The calibrated distance corresponding to the signal strength attenuation between the system end and the data sending unit; ΔW ₀₁ means that the actual distance between the total system end or multiple branch system ends and the data sending unit exceeds L ₀₁ and corresponds to each unit distance Signal strength attenuation range, and the unit distance is 1km; ΔW ₀₂ represents the signal receiving capability attenuation range caused by the device loss of the total system end or multiple branch system ends every year; n represents the total system end or multiple branch system ends The number of years of use of the branch system end; W represents the theoretical signal transmission strength corresponding to the actual distance between the total system end or multiple branch system ends and the data sending unit; _L2 represents the existence of the distance between the total system end or multiple branch system ends and their vicinity L ₀₂ represents the interference distance that can cause signal strength interference between two adjacent signal terminals; ΔW ₀₃ represents the distance between the total system terminal or multiple branch system terminals and their vicinity The theoretical interference corresponding to the _actual distance between the nearest existing communication signal interfaces corresponds to the signal interference intensity; Compared with the interference distance that can generate signal strength interference between two adjacent signal terminals, the interference signal strength generated by each unit distance is closer;

A2. Comparing the communication quality index number corresponding to the total system end or multiple branch system ends with the preset first index threshold value, and when the communication quality index number is lower than the first index threshold value, then determine The communication quality of the overall system end or the branch system end corresponding to the number of communication quality indicators lower than the first index threshold is not good;

A3. The first communication quality judging module caches the instructions to be transmitted that need to be sent when the communication quality of the overall system end or the branch system ends is not good, and the system end or multiple branch system ends When the communication quality reaches the standard, send the instruction to be transmitted to the main system end or multiple branch system ends;

The communication quality detection process of the second communication quality judgment module includes:

B1. The second communication quality judgment module uses the second communication quality evaluation model to monitor the data receiving unit in real time, and obtains the communication quality index number corresponding to the data receiving unit; wherein, the second communication quality evaluation model is as follows:

Wherein, E ₂ represents the number of communication quality indicators acquired by the second communication quality assessment model; L ₃ represents the actual distance between the data receiving unit and the total system end or multiple branch system ends; L ₀₃ represents the total system end or multiple branch system ends The calibration distance corresponding to the signal strength _attenuation between each branch system end and _the data receiving unit; The corresponding signal strength attenuation range, and the unit distance is 1km; ΔW ₀₆ represents the signal reception capability attenuation range caused by the device loss of the data receiving unit every year; m represents the number of years of use of the data receiving unit; W _e represents The theoretical signal transmission strength corresponding to the actual distance between the total system end or multiple branch system ends and the data receiving unit;

B2. Comparing the communication quality index number corresponding to the data receiving unit with a preset second index threshold value, and when the communication quality index number is lower than the second index threshold value, then determine the communication quality index number of the data receiving unit poor communication quality;

B3. The second communication quality judging module caches the receiving commands to be received by the data receiving unit when the communication quality is not good, and when the communication quality of the data receiving unit reaches the standard, sends the The data receiving unit sends the instruction to be received.

The effect of the above technical solution is: through the above method and the acquisition formula of the communication quality index number, the communication quality inspection is performed on the data receiving unit and the total system end or multiple branch system ends, which can effectively combine the attenuation between the communication signal and the transmission distance The influence of the relationship and the use time on the device and the signal attenuation generated by the communication quality detection can effectively improve the accuracy of the communication quality evaluation. At the same time, the above-mentioned formula model has the advantage of a simple model, which can minimize the response time of the communication quality evaluation calculation, improve the response speed, and then improve the real-time quality detection speed and timeliness. On the other hand, by buffering the instructions to be sent and received by the first communication quality judging module and the second communication quality judging module, the transmission efficiency of instructions can be effectively improved, and there is no need for the instruction sending end to reissue the transmission instruction once. Transmission, thereby effectively reducing the operating load of the system.

To authenticate data sharing between the overall system side and multiple branch system sides, perform the following operations:

Obtain feature identification information on the branch system side;

Refer to the authentication identification information stored in the overall system end, perform data sharing authentication on the feature identification information, and determine the data sharing authentication result through the data sharing authentication between the overall system end and multiple branch system ends;

For the situation where the characteristic identification information of the branch system is within the scope of the authentication identification information in the main system, a data sharing channel between the main system and multiple branch systems is established, and multiple groups of sub-paths are sequentially connected based on the multi-path main path , realizing data sharing between the total system end and multiple branch system ends;

For the situation where the characteristic identification information of the branch system is not within the scope of the authentication identification information in the main system, the data sharing channel between the main system and multiple branch systems cannot be established, and the branch system cannot share the data information of the main system. .

It should be noted that the authentication of data sharing between the main system end and multiple branch system ends refers to the authentication identification information stored in the overall system end to perform data sharing authentication on the feature identification information. If the feature identification information of the branch system end Within the scope of the authentication identification information in the total system end, a data sharing channel between the total system end and multiple branch system ends is established, and multiple sub-paths are connected in turn based on the multi-path total path to realize the connection between the total system end and multiple branches. Data sharing between system ends.

According to the data sharing authentication results, establish a data sharing channel between the main system end and multiple branch system ends, and connect multiple groups of sub-paths in sequence based on the multi-path overall path, and perform the following operations:

Based on the fact that the characteristic identification information of the branch system end is within the scope of the authentication identification information in the overall system end, a data sharing channel between the overall system end and multiple branch system ends is established, and multiple groups of sub-paths are sequentially connected based on the multi-path overall path;

The branch system end sends a data sharing request command with specific shared data information to the data sharing server end;

After the data sharing server receives the data sharing request instruction, the data sharing server sends the data sharing request instruction to the total system;

After the general system end receives the data sharing request instruction, according to the data sharing request instruction, the overall system end sends specific shared data information that meets the requirements of the branch system end to the data sharing server end;

After the data sharing server receives the specific shared data information, the data sharing server sends the specific shared data information that meets the needs of the branch system to the branch system to realize data sharing between the total system and multiple branch systems.

The total system side sends specific shared data information that meets the requirements of the branch system side according to the data sharing request instruction, and performs the following operations:

Obtain specific shared data information in the data sharing request instruction according to the data sharing request instruction;

Extract the specific shared data information, refer to the keywords of the specific shared data information, index the specific shared data information from the data storage module of the total system end, and call the indexed specific shared data information to determine the requirements of the branch system end specific shared data information;

According to the determined specific shared data information that meets the needs of the branch system, the general system transmits the specific shared data that meets the needs of the branch system to the data sharing server;

The specific shared data information that meets the requirements of the branch system is transmitted to the branch system through the data sharing server.

The shared management module includes a data acquisition unit, a data processing unit and a data transfer unit, wherein

The data acquisition unit is used to obtain the specific shared data information that meets the requirements of the branch system end sent from the total system end to the data sharing server end, completely extracts the obtained specific shared data information, and transmits it to the data processing unit in real time for subsequent pre-preparation. deal with;

The data processing unit is used to preprocess the received specific shared data information, filter, clean, convert and encrypt the specific shared data information, and transmit the encrypted specific shared data information to the data transfer unit in real time for data transfer;

The data transfer unit is used to transfer the received encrypted specific shared data information to the branch system in real time. The branch system receives the encrypted specific shared data information, and the branch system uses a secret key to encrypt the encrypted specific shared data. The information is decrypted, the requested specific shared data information is obtained, and the specific shared data information is stored in the branch system.

The branch system side uses the secret key to decrypt the encrypted specific shared data information, and performs the following operations:

After the branch system end and the total system end have passed the data sharing authentication, the data transmission encryption method is established between the branch system end and the total system end;

The total system side determines the specific shared data information that meets the requirements of the branch system side, and encrypts the specific shared data information;

The total system side transmits the encrypted specific shared data information to the branch system side;

The branch system end receives the encrypted specific shared data information, and the branch system end uses the secret key to decrypt the specific shared data information, and obtains the shared data based on the transmission between the total system end and the branch system end.

It should be noted that after the branch system end and the general system end have passed the data sharing certification, the data transmission encryption method is established between the branch system end and the general system end, and the general system end determines the specific shared data information that meets the needs of the branch system end, and Encrypt the specific shared data information, the main system end transmits the encrypted specific shared data information to the branch system end, the branch system end receives the encrypted specific shared data information, and the branch system end uses the secret key to decrypt the specific shared data information, Obtain the shared data based on the transmission between the main system end and the branch system end to ensure the integrity and accuracy of data sharing.

In order to better demonstrate the data sharing management process, this embodiment now proposes a data sharing management method, which is applied to the above-mentioned data sharing management system, including the following steps:

S1: The branch system end sends a data sharing request command with specific shared data information to the data sharing server end, and the data sharing server end authenticates the data sharing between the overall system end and multiple branch system ends, and establishes the data sharing between the overall system end and multiple branch system ends. The data sharing channel between multiple branch system ends connects multiple sets of sub-paths sequentially based on the total path of multiple paths;

S2: The branch system end sends a data sharing request instruction with specific shared data information to the data sharing server end, and after the data sharing server end receives the data sharing request instruction, the data sharing server end sends a data sharing request instruction to the overall system end;

S3: After the total system end receives the data sharing request instruction, according to the data sharing request instruction, the total system end sends specific shared data information that meets the needs of the branch system end to the data sharing server end, and the data sharing server end sends the corresponding branch system end to the branch system end. The specific shared data information required by the system side realizes data sharing between the total system side and multiple branch system sides.

It should be noted that in this article, relational terms such as first and second are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply that there is a relationship between these entities or operations. There is no such actual relationship or order between them. Furthermore, the term "comprises", "comprises" or any other variation thereof is intended to cover a non-exclusive inclusion such that a process, method, article, or apparatus comprising a set of elements includes not only those elements, but also includes elements not expressly listed. other elements of or also include elements inherent in such a process, method, article, or device.

Although the embodiments of the present invention have been shown and described, those skilled in the art can understand that various changes, modifications and substitutions can be made to these embodiments without departing from the principle and spirit of the present invention. and modifications, the scope of the invention is defined by the appended claims and their equivalents.

Claims (10)

1. A data sharing management system comprises a branch system end, a total system end and a data sharing service end, and is characterized in that; the branch system end is connected with the total system end through the data sharing service end and is used for realizing data sharing between the total system end and the plurality of branch system ends, wherein

The branch system end is used for sending a data sharing request instruction with specific sharing data information to the data sharing server end and receiving the specific sharing data information meeting the requirements of the branch system end, which is sent by the data sharing server end;

the system comprises a data sharing server, a total system side, a branch system side and a branch system side, wherein the total system side is used for receiving a data sharing request instruction with specific sharing data information sent by the data sharing server, and sending the specific sharing data information meeting the requirements of the branch system side to the data sharing server according to the data sharing request instruction;

the data sharing server side is used for receiving a data sharing request instruction with specific sharing data information sent by the branch system side, transmitting the received data sharing request instruction to the total system side, receiving the specific sharing data information meeting the requirements of the branch system side sent by the total system side, and transmitting the received specific sharing data information meeting the requirements of the branch system side to the branch system side;

The data sharing server is used for authenticating data sharing between the total system end and the plurality of branch system ends, establishing a data sharing channel between the total system end and the plurality of branch system ends, and sequentially connecting a plurality of groups of sub-paths based on the multi-path total path to realize data sharing between the total system end and the plurality of branch system ends.

2. A data sharing management system according to claim 1, wherein: the data sharing server side comprises a data transmission module, a sharing authentication module and a sharing management module, wherein

The data transmission module is used for realizing data transmission between the total system end and the plurality of branch system ends, and comprises a data transmission unit and a data receiving unit, wherein the data transmission unit is used for transmitting data transmission instructions to the total system end or the plurality of branch system ends, and the data receiving unit is used for receiving the data transmission instructions transmitted by the total system end or the plurality of branch system ends;

the sharing authentication module is used for authenticating data sharing between the total system end and the plurality of branch system ends, determining a data sharing authentication result through data sharing authentication between the total system end and the plurality of branch system ends, and executing different data sharing strategies according to the data sharing authentication result;

The sharing management module is used for comprehensively managing data sharing between the total system end and the plurality of branch system ends, acquiring data information to be shared, preprocessing the data information to be shared, and completely and accurately transmitting the data information to be shared to the plurality of branch system ends.

3. A data sharing management system according to claim 2, wherein: the data transmission module further comprises a first communication quality judging module and a second communication quality judging module;

the first communication quality judging module is used for sequentially detecting communication quality of a total system end or a plurality of branch system ends, caching the instruction to be transmitted when the communication quality is not good in operation, and transmitting data to the instruction to be transmitted when the communication quality of the total system end or the plurality of branch system ends reaches the standard;

the second communication quality judging module is used for detecting the communication quality of the data receiving unit, caching the instruction to be received when the communication quality is not good, and controlling the data receiving unit to receive the instruction to be received when the communication quality of the data receiving unit reaches the standard.

4. A data sharing management system according to claim 3, wherein: the communication quality detection process of the first communication quality judgment module comprises the following steps:

a1, the first communication quality judging module monitors a total system end or a plurality of branch system ends in real time by using a first communication quality evaluation model, and acquires the communication quality index number corresponding to the total system end or the plurality of branch system ends; wherein the first communication quality assessment model is as follows:

wherein E is ₁ Representing the number of communication quality indexes acquired by the first communication quality assessment model; l (L) ₁ Representing the actual distance between the total system end or a plurality of branch system ends and the data transmission unit; l (L) ₀₁ Indicating the calibration distance corresponding to the signal intensity attenuation between the total system end or a plurality of branch system ends and the data transmission unit; ΔW (delta W) ₀₁ Indicating that the actual distance between the total system side or multiple branch system sides and the data transmission unit exceeds L ₀₁ The attenuation amplitude of the signal intensity corresponding to each unit distance is 1km; ΔW (delta W) ₀₂ Representing the attenuation amplitude of the signal receiving capacity caused by the loss of the device corresponding to each year of use of the total system end or the plurality of branch system ends; n represents the years of use of the total system end or the plurality of branch system ends; w represents theoretical signal transmission intensity corresponding to actual distances between a total system end or a plurality of branch system ends and a data transmission unit; l (L) ₂ Representing the actual distance, L, between the total system end or the plurality of branch system ends and the nearest communication signal interface present in the vicinity thereof ₀₂ Representing an interference distance capable of generating signal strength interference between two adjacent signal terminals; ΔW (delta W) ₀₃ Representing signal interference intensity corresponding to theoretical interference corresponding to actual distance between the total system end or a plurality of branch system ends and nearest communication signal interfaces existing nearby the total system end or the plurality of branch system ends; ΔW (delta W) ₀₄ Each near single one representing the actual distance between the total system end or multiple tributary system ends and the nearest communication signal interface present in its vicinity compared to the interference distance that can create signal strength interference between two adjacent signal endsThe bit distance generated interference signal strength;

a2, comparing the communication quality index number corresponding to the total system end or the plurality of branch system ends with a preset first index threshold value, and determining that the communication quality of the total system end or the branch system end corresponding to the communication quality index number lower than the first index threshold value is poor when the communication quality index number is lower than the first index threshold value;

a3, the first communication quality judging module caches the to-be-transmitted instruction which is required to be transmitted when the communication quality of the total system end or the branch system ends is not operated well, and transmits the to-be-transmitted instruction to the total system end or the branch system ends when the communication quality of the total system end or the branch system ends reaches the standard;

The communication quality detection process of the second communication quality judgment module comprises the following steps:

b1, the second communication quality judging module monitors the data receiving unit in real time by using a second communication quality evaluation model, and acquires the communication quality index number corresponding to the data receiving unit; wherein the second communication quality assessment model is as follows:

wherein E is ₂ Representing the number of communication quality indexes acquired by the second communication quality assessment model; l (L) ₃ Representing an actual distance between a data receiving unit and the overall system side or the plurality of branch system sides; l (L) ₀₃ Indicating the calibration distance corresponding to the signal intensity attenuation between the total system end or a plurality of branch system ends and the data receiving unit; ΔW (delta W) ₀₅ Indicating that the actual distance between the total system side or multiple branch system sides and the data receiving unit exceeds L ₀₃ The attenuation amplitude of the signal intensity corresponding to each unit distance is 1km; ΔW (delta W) ₀₆ Representing the attenuation amplitude of the signal receiving capacity caused by the corresponding device loss of each year of use of the data receiving unit; m represents the use of a data receiving unitYears of age; w (W) _e Representing theoretical signal transmission intensity corresponding to actual distances between the total system end or a plurality of branch system ends and the data receiving unit;

B2, comparing the communication quality index number corresponding to the data receiving unit with a preset second index threshold value, and determining that the communication quality of the data receiving unit is poor when the communication quality index number is lower than the second index threshold value;

and B3, the second communication quality judging module caches the to-be-received command which is required to be received when the communication quality of the data receiving unit is not good, and sends the to-be-received command to the data receiving unit when the communication quality of the data receiving unit reaches the standard.

5. A data sharing management system according to claim 2, wherein: authenticating data sharing between the total system end and the plurality of branch system ends, and executing the following operations:

acquiring characteristic identification information of a branch system end;

performing data sharing authentication on the characteristic identification information by referring to the authentication identification information stored in the total system end, and determining a data sharing authentication result through the data sharing authentication between the total system end and the plurality of branch system ends;

aiming at the situation that the characteristic identification information of the branch system end is in the authentication identification information range in the total system end, establishing a data sharing channel between the total system end and a plurality of branch system ends, and sequentially connecting a plurality of groups of sub-paths based on the multi-path total path to realize data sharing between the total system end and the plurality of branch system ends;

Aiming at the situation that the characteristic identification information of the branch system end is not in the authentication identification information range in the total system end, a data sharing channel between the total system end and a plurality of branch system ends cannot be established, and the branch system ends cannot share the data information of the total system end.

6. The data sharing management system according to claim 5, wherein: according to the data sharing authentication result, a data sharing channel between the total system end and the plurality of branch system ends is established, a plurality of groups of sub-paths are sequentially connected based on the multi-path total path, and the following operations are executed:

based on the condition that the characteristic identification information of the branch system end is in the authentication identification information range in the total system end, establishing a data sharing channel between the total system end and a plurality of branch system ends, and sequentially connecting a plurality of groups of sub-paths based on a multi-path total path;

the branch system end sends a data sharing request instruction attached with specific sharing data information to the data sharing server end;

after receiving the data sharing request instruction, the data sharing server side sends the data sharing request instruction to the total system side;

after receiving the data sharing request instruction, the total system end sends specific sharing data information meeting the requirements of the branch system end to the data sharing service end according to the data sharing request instruction;

After the data sharing server receives the specific shared data information, the data sharing server sends the specific shared data information meeting the requirements of the branch system end to the branch system end, and data sharing between the total system end and the plurality of branch system ends is achieved.

7. The data sharing management system according to claim 6, wherein: the total system side sends specific shared data information meeting the requirements of the branch system side according to the data sharing request instruction, and the following operations are executed:

acquiring specific shared data information in the data sharing request instruction according to the data sharing request instruction;

extracting specific shared data information, referring to keywords of the specific shared data information, indexing the specific shared data information from a data storage module of a total system end, calling the indexed specific shared data information, and determining the specific shared data information meeting the requirements of a branch system end;

according to the determined specific shared data information meeting the requirements of the branch system end, the total system end transmits the specific shared data information meeting the requirements of the branch system end to the data sharing server end;

and transmitting the specific shared data information meeting the requirements of the branch system end to the branch system end through the data sharing service end.

8. The data sharing management system according to claim 7, wherein: the sharing management module comprises a data acquisition unit, a data processing unit and a data transfer unit, wherein

The data acquisition unit is used for acquiring specific shared data information meeting the requirements of the branch system end and sent to the data sharing server end by the total system end, completely extracting the acquired specific shared data information, and transmitting the specific shared data information to the data processing unit in real time for subsequent preprocessing;

the data processing unit is used for preprocessing the received specific shared data information, filtering, cleaning, converting and encrypting the specific shared data information, and transmitting the encrypted specific shared data information to the data transfer unit in real time for data transfer;

the data transfer unit is used for transferring the received encrypted specific shared data information to the branch system end in real time, the branch system end receives the encrypted specific shared data information, the branch system end decrypts the encrypted specific shared data information by adopting a secret key, the specific shared data information of the request is obtained, and the specific shared data information is stored in the branch system end.

9. The data sharing management system according to claim 8, wherein: the branch system end adopts a secret key to decrypt the encrypted specific shared data information, and the following operations are executed:

after the branch system end and the total system end are subjected to data sharing authentication, a data transmission encryption mode is established between the branch system end and the total system end;

the method comprises the steps that a total system end determines specific shared data information meeting the requirements of a branch system end and encrypts the specific shared data information;

the total system end transmits encrypted specific shared data information to the branch system end;

the branch system receives the encrypted specific shared data information, and decrypts the specific shared data information by adopting a secret key to acquire shared data transmitted between the total system end and the branch system end.

10. A data sharing management method applied to the data sharing management system according to any one of claims 1 to 7, comprising the steps of:

s1: the branch system end sends a data sharing request instruction with specific sharing data information to the data sharing service end, the data sharing service end authenticates data sharing between the total system end and the plurality of branch system ends, establishes a data sharing channel between the total system end and the plurality of branch system ends, and sequentially connects a plurality of groups of sub-paths based on a multi-path total path;

S2: the branch system end sends a data sharing request instruction with specific sharing data information to the data sharing server end, and the data sharing server end sends the data sharing request instruction to the total system end after receiving the data sharing request instruction;

s3: after the total system receives the data sharing request instruction, the total system sends specific sharing data information meeting the requirements of the branch system to the data sharing server according to the data sharing request instruction, and the data sharing server sends the specific sharing data information meeting the requirements of the branch system to the branch system, so that data sharing between the total system and the plurality of branch system is realized.