WO2022021698A1

WO2022021698A1 - Block chain using multiple information integration mode

Info

Publication number: WO2022021698A1
Application number: PCT/CN2020/131118
Authority: WO
Inventors: 汪洋; 柴荔; 邹悦宁
Original assignee: 中诚区块链研究院(南京)有限公司
Priority date: 2020-07-30
Filing date: 2020-11-24
Publication date: 2022-02-03
Also published as: CN111935115A

Abstract

The present invention relates to the technical field of block chains, and in particular to a block chain using a multiple information integration mode. The block chain comprises a central database unit, an information integration unit, a network communication unit and an application management unit. The central database unit is used for dividing and classifying data information to form a plurality of databases; the information integration unit is used for inputting, classifying, updating and sharing the data information; the network communication unit is used for providing a plurality of networking ways and reasonably performing distribution management; and the application management unit is used for providing a channel for a user to communicate with the system and limiting and protecting operation right. The present invention can distribute and integrate information of systems of different layers, achieving effective sharing of information resources and reuse of key data, and promoting scientific management of the information resources.

Description

A blockchain that uses a variety of information integration methods

technical field

The present invention relates to the technical field of blockchain, in particular to a blockchain that adopts multiple information integration methods.

Background technique

An information system is a human-machine integrated system composed of computer hardware, network communication equipment, computer software, information resources, information users and rules and regulations for the purpose of processing information flow. output and control. At present, most of the information systems have a single structure, scattered modules, and independent information, resulting in the situation that multiple information chains are difficult to communicate and multi-level systems are difficult to integrate.

SUMMARY OF THE INVENTION

The purpose of the present invention is to provide a block chain using multiple information integration methods to solve the problems raised in the above background technology.

In order to solve the above technical problems, one of the purposes of the present invention is to provide a blockchain that adopts multiple information integration methods, including a central database unit, an information integration unit, a network communication unit and an application management unit; the central database unit , an information integration unit, a network communication unit, and an application management unit are sequentially connected by digital signal communication; the central database unit is used to divide and classify data information to form several databases; the information integration unit is used to input data information , classification, update and sharing operations; the network communication unit is used to provide a variety of networking methods and reasonably allocate and manage; the application management unit is used to provide users with a channel to communicate with the system and to limit and protect the control authority .

As a further improvement of this technical solution, the central database unit includes a distributed database module, a common database module and a data link module; the distributed database module, the common database module and the data link module are sequentially connected through digital signal communication; the distributed database module uses It is used to classify basic data according to set conditions and store them separately; the commonly used database module is used to centrally copy frequently accessed data into an independent database to improve access efficiency; the data link module is used to organize Historical data to build up and down interconnected data link chains.

Among them, the functions of the data link include data exchange, data query, data multiplexing and information comparison.

As a further improvement of this technical solution, the information integration unit includes a data classification module, a data update module, a data unification module and a data sharing module; the signal output end of the data classification module is connected with the signal input end of the data update module, and the data update module The signal output end of the data unification module is connected with the signal input end of the data unification module, and the signal output end of the data unification module is connected with the signal input end of the data sharing module; the data classification module is used to identify and classify the newly entered data; the The data update module is used to update the identified and classified data into the corresponding database; the data unification module is used to convert data of different formats into standardization to prepare for data exchange; the data sharing module is used to share the data with Through different databases to avoid duplication of data entry.

As a further improvement of this technical solution, the calculation formula of the data classification module is as follows:

sim(S1.ei, S2.ej)=AGG(simf(S1.ei, S2.ej));

Among them, ei and ej are two attributes belonging to modes S1 and S2, simf is a similarity algorithm based on feature f, and AGG is an aggregation function.

As a further improvement of this technical solution, the method of the data unification module is:

Use R _set to represent the semantic conversion rule set, R _set ={r ₁ , _r ₂ ,...,rn }, where ri represents a certain rule, _i =1,2,...,n, n is the total number of rules, r _i = (T,D,OT,O,R);

T is Type, the semantic conversion problem type identifier; D is Data, the data object to be processed by the semantic conversion layer; OT is Operation Type, the trigger type of the conversion operation performed by the semantic conversion layer; O is Operation, the specific operation of semantic conversion; R For Reference, the operation in the rule.

As a further improvement of this technical solution, the network communication unit includes a local area network module, an internet module, a wireless network module and a transmission protocol module; the local area network module, the internet module, the wireless network module and the transmission protocol module operate in parallel; the local area network module is used for The short-range data transmission is realized through wired network communication within the geographic range; the Internet module is used to realize long-distance data transmission through the Internet; the wireless network module is used to realize low-latency data transmission through wireless network communication technology; The transmission protocol module is used for storing and encapsulating various file transmission protocols and managing smooth switching of different network modes.

As a further improvement of this technical solution, the application management unit includes a human-computer interaction module, an authority protection module and an alarm module; the signal output terminal of the human-computer interaction module is connected to the signal input terminal of the authority protection module; the human-computer interaction module Used to feed back information to users and provide users with a channel for accessing and querying information; the authority protection module is used to protect data information and identify and limit the user's identity; the alarm module is used to meet the set conditions. The illegal access users and illegal operations will be reported to the police.

As a further improvement of this technical solution, the authority protection module includes a data encryption module and an identity recognition module; the signal output end of the data encryption module is connected to the signal input end of the identity recognition module; the data encryption module is used for encrypting data through an encryption algorithm. Important data information is encrypted and protected according to the classified databases; the identity identification module is used to identify the user's identity and assign operation authority.

Wherein, the method for data encryption includes the following steps:

S1, the establishment of system parameters, randomly select a number

Calculate P _pub =sP, where P is the generator of G ₁ , and choose two strong cryptographic hash functions H ₁ :

and H ₂ :

Among them, H ₁ maps the input of arbitrary length to a fixed length, H ₂ maps the user identity ID to an element in H ₁ , and finally PKG saves s as the private key of the system;

S2. Signature: Perform random selection

Calculate R=rP, output the signature for M σ=(R, rP _pub + H ₁ (M, R)d _MACID );

S3. Verification: Let σ=(U, V) be the signature for M, the verifier needs to execute: calculate Q _MACID =H ₂ (MACID), calculate u=e(V,P), calculate v=e(U+ H ₁ (M,U)Q _MACID ,P _pub ), if u=v, output accept signature, otherwise output reject.

Among them, identity recognition is divided into public chain, private chain and alliance chain according to the function of blockchain. Users enter the system through public key, private key or alliance access conditions, and can perform various operations within the limited authority.

The second purpose of the present invention is to provide a block chain device using multiple information integration methods, including a processor, a memory, and a computer program stored in the memory and running on the processor. When the processor is used to execute the computer program To achieve any of the above blockchains using a variety of information integration methods.

A third object of the present invention is that the computer-readable storage medium stores a computer program, and when the computer program is executed by the processor, any of the above-mentioned blockchains using multiple information integration methods are implemented.

Compared with the prior art, the beneficial effect of the present invention is that in the blockchain using multiple information integration methods, by combining the blockchain technology with the information system, a unified information management platform is built, which can be used for different levels of systems. The information is distributed and integrated to realize the effective sharing of information resources and the reuse of key data, and promote the scientific management of information resources.

Description of drawings

Fig. 1 is the overall block diagram of embodiment 1;

Fig. 2 is the central database unit module block diagram of embodiment 1;

3 is a block diagram of an information integration unit module of Embodiment 1;

4 is a block diagram of a network communication unit module of Embodiment 1;

5 is a block diagram of an application management unit module of Embodiment 1;

6 is a block diagram of the authority protection module of Embodiment 1;

FIG. 7 is a schematic structural diagram of the blockchain device of Embodiment 1. FIG.

The meanings of the symbols in the figure are:

100, a central database unit; 101, a distributed database module; 102, a common database module; 103, a data link module;

200, an information integration unit; 201, a data classification module; 202, a data update module; 203, a data unification module; 204, a data sharing module;

300, a network communication unit; 301, a local area network module; 302, an Internet module; 303, a wireless network module; 304, a transmission protocol module;

400, application management unit; 401, human-computer interaction module; 402, authority protection module; 4021, data encryption module; 4022, identity recognition module; 403, alarm module.

detailed description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, but not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present invention.

Example 1

As shown in Figures 1-7, this embodiment provides a blockchain that uses multiple information integration methods, including a central database unit 100, an information integration unit 200, a network communication unit 300, and an application management unit 400; the central database unit 100 , the information integration unit 200, the network communication unit 300 and the application management unit 400 are sequentially connected through digital signal communication; the central database unit 100 is used to classify the data information to form several databases; the information integration unit 200 is used to Entry, classification, update and sharing operations; the network communication unit 300 is used to provide a variety of networking ways and reasonably allocate and manage; the application management unit 400 is used to provide users with a channel for communicating with the system and to limit and protect the control authority.

In this embodiment, the central database unit 100 includes a distributed database module 101, a common database module 102 and a data link module 103; the distributed database module 101, the common database module 102 and the data link module 103 are sequentially connected through digital signal communication; the distributed database module 101 It is used to classify the basic data according to the set conditions and store them separately; the common database module 102 is used to centrally copy frequently accessed data into an independent database to improve access efficiency; the data link module 103 is used to organize the history by data to build up and down interconnected data link chains.

In this embodiment, the information integration unit 200 includes a data classification module 201, a data update module 202, a data unification module 203 and a data sharing module 204; the signal output end of the data classification module 201 is connected to the signal input end of the data update module 202, and the data The signal output end of the update module 202 is connected with the signal input end of the data unification module 203, and the signal output end of the data unification module 203 is connected with the signal input end of the data sharing module 204; the data classification module 201 is used to identify the newly entered data The data update module 202 is used to update the identified and classified data into the corresponding database; the data unification module 203 is used to convert the data of different formats into standardization to prepare for data exchange; the data sharing module 204 is used to convert the data Share to different databases to avoid duplication of data entry.

Specifically, the calculation formula of the data classification module 201 is as follows:

sim(S1.ei, S2.ej)=AGG(simf(S1.ei, S2.ej));

Specifically, the method of the data unification module 203 is:

In this embodiment, the network communication unit 300 includes a local area network module 301, an internet module 302, a wireless network module 303 and a transmission protocol module 304; the local area network module 301, the internet module 302, the wireless network module 303 and the transmission protocol module 304 run in parallel; the local area network module 301 is used to realize short-range data transmission through wired network communication within the geographic range; the Internet module 302 is used to realize long-distance data transmission through the Internet; the wireless network module 303 is used to realize low-latency data transmission through wireless network communication technology; The transmission protocol module 304 is used for storing and encapsulating various file transmission protocols and managing smooth switching of different network modes.

In this embodiment, the application management unit 400 includes a human-computer interaction module 401, an authority protection module 402 and an alarm module 403; the signal output terminal of the human-computer interaction module 401 is connected to the signal input terminal of the authority protection module 402; the human-computer interaction module 401 It is used to feed back information to users and provide users with a channel for accessing and querying information; the authority protection module 402 is used to protect data information and identify and limit the identity of users; the alarm module 403 is used to prevent illegal Access user and illegal operation behavior to alarm.

Further, the authority protection module 402 includes a data encryption module 4021 and an identity recognition module 4022; the signal output end of the data encryption module 4021 is connected with the signal input end of the identity recognition module 4022; the data encryption module 4021 is used for encrypting important data information through an encryption algorithm The classified databases are encrypted and protected respectively; the identity identification module 4022 is used to identify the user's identity and assign operation authority.

Wherein, the method for data encryption includes the following steps:

S1, the establishment of system parameters, randomly select a number

and H ₂ :

Among them, H ₁ maps the input of arbitrary length to a fixed length, H ₂ maps the user ID to an element in G ₁ , and finally PKG saves s as the private key of the system;

S2. Signature: Perform random selection

Referring to FIG. 7 , it shows a schematic structural diagram of a block chain device using multiple information integration methods involved in this embodiment, and the device includes a processor, a memory, and a bus.

The processor includes one or more processing cores, the processor is connected to the processor through a bus, and the memory is used to store program instructions. When the processor executes the program instructions in the memory, the above-mentioned blockchain using multiple information integration methods is implemented.

Alternatively, the memory can be implemented by any type of volatile or non-volatile storage device or combination thereof, such as static anytime access memory (SRAM), electrically erasable programmable read only memory (EEPROM), Erasing Programmable Read Only Memory (EPROM), Programmable Read Only Memory (PROM), Read Only Memory (ROM), Magnetic Memory, Flash Memory, Magnetic Disk or Optical Disk.

In addition, the present invention also provides a computer-readable storage medium, where the computer-readable storage medium stores a computer program, and when the computer program is executed by the processor, the above-mentioned blockchain using multiple information integration methods is implemented.

Optionally, the present invention also provides a computer program product containing instructions, which, when running on a computer, enables the computer to execute the above aspects using a blockchain in various information integration methods.

Those of ordinary skill in the art can understand that all or part of the steps of implementing the above-mentioned embodiments can be completed by hardware, or can be completed by instructing relevant hardware through a program, and the program can be stored in a computer-readable storage medium, the above-mentioned storage medium It can be a read-only memory, a magnetic disk or an optical disk, etc.

The foregoing has shown and described the basic principles, main features and advantages of the present invention. Those skilled in the art should understand that the present invention is not limited by the above-mentioned embodiments, and the above-mentioned embodiments and descriptions are only preferred examples of the present invention, and are not intended to limit the present invention, without departing from the spirit and scope of the present invention. Under the premise, the present invention will also have various changes and improvements, and these changes and improvements all fall within the scope of the claimed invention. The claimed scope of the present invention is defined by the appended claims and their equivalents.

Claims

A blockchain using multiple information integration methods, characterized in that it includes a central database unit (100), an information integration unit (200), a network communication unit (300) and an application management unit (400); the central database unit (100) ), the information integration unit (200), the network communication unit (300) and the application management unit (400) are sequentially connected through digital signal communication; the central database unit (100) is used to divide and classify data information to form several databases ; The information integration unit (200) is used to input, classify, update and share data information; the network communication unit (300) is used to provide a variety of networking approaches and reasonably carry out distribution management; the application management unit (400) is used to provide the user with a channel for communicating with the system and to limit and protect the manipulation authority.
The blockchain using multiple information integration methods according to claim 1, wherein the central database unit (100) comprises a distributed database module (101), a common database module (102) and a data link module (103) The distributed database module (101), the commonly used database module (102) and the data link module (103) are connected in turn through digital signal communication; the distributed database module (101) is used to classify the basic data according to the set conditions and separate them respectively. storage; the commonly used database module (102) is used for centrally copying frequently accessed data into an independent database to improve access efficiency; the data link module (103) is used for establishing a mutual connection between top and bottom by sorting out historical data data link chain.
The blockchain using multiple information integration methods according to claim 1, wherein the information integration unit (200) comprises a data classification module (201), a data update module (202), and a data unification module (203) and data sharing module (204); the signal output end of the data classification module (201) is connected with the signal input end of the data update module (202), and the signal output end of the data update module (202) is connected with the signal of the data unification module (203) The input end is connected, and the signal output end of the data unification module (203) is connected with the signal input end of the data sharing module (204); the data classification module (201) is used to identify and classify newly entered data; the data The update module (202) is used to update the identified and classified data into the corresponding database; the data unification module (203) is used to convert the data of different formats into standardization to prepare for data exchange; the data sharing module (203) 204) is used to share data to different databases to avoid the need for repeated data entry.
The block chain using multiple information integration methods according to claim 3, characterized in that: the calculation formula of the data classification module (201) is as follows:

sim(S1.ei, S2.ej)=AGG(simf(S1.ei, S2.ej));

Among them, ei and ej are two attributes belonging to modes S1 and S2, simf is a similarity algorithm based on feature f, and AGG is an aggregation function.
The blockchain using multiple information integration methods according to claim 3, characterized in that: the method of the data unification module (203) is:

Use R set to represent the semantic conversion rule set, R set ={r 1 , r 2 ,...,rn }, where ri represents a certain rule, i =1,2,...,n, n is the total number of rules, r i = (T,D,OT,O,R);

T is Type, the semantic conversion problem type identifier; D is D□□a, the data object to be processed by the semantic conversion layer; OT is Operation Type, the trigger type of the conversion operation performed by the semantic conversion layer; O is Operation, the specific semantic conversion Operation; R is Reference, the operation in the rule.
The blockchain using multiple information integration methods according to claim 1, characterized in that: the network communication unit (300) comprises a local area network module (301), an internet module (302), a wireless network module (303) and a transmission A protocol module (304); a local area network module (301), an internet module (302), a wireless network module (303) and a transmission protocol module (304) run in parallel; the local area network module (301) is used to pass a wired network within a geographic range Communication realizes short-range data transmission; the Internet module (302) is used for realizing long-distance data transmission through the Internet; the wireless network module (303) is used for realizing low-latency data transmission through wireless network communication technology; the The transmission protocol module (304) is used for storing and encapsulating various file transmission protocols and managing smooth switching of different network modes.
The blockchain using multiple information integration methods according to claim 1, characterized in that: the application management unit (400) comprises a human-computer interaction module (401), an authority protection module (402) and an alarm module (403) The signal output terminal of the human-computer interaction module (401) is connected with the signal input terminal of the authority protection module (402); the human-computer interaction module (401) is used to feed back information to the user and provide access and query information to the user. channel; the authority protection module (402) is used to protect the data information and identify and limit the identity of the user; the alarm module (403) is used to alarm the illegal access users and illegal operation behaviors that meet the set conditions .
The blockchain using multiple information integration methods according to claim 7, characterized in that: the authority protection module (402) comprises a data encryption module (4021) and an identity recognition module (4022); a data encryption module (4021) The signal output end is connected with the signal input end of the identity recognition module (4022); the data encryption module (4021) is used to encrypt and protect the important data information according to the classified database through an encryption algorithm; the identity recognition module (4022) ) is used to identify the user's identity and assign operation authority.