CN111144139A - Uniqueness authentication method and identification system of translation result based on block chain - Google Patents

Abstract

The invention provides a uniqueness authentication method and a recognition system of a translation result based on a block chain; the identification system comprises a plurality of block chain nodes, an intelligent contract engine in broadcast communication with the block chain nodes, a user terminal and a plurality of information chain channels for connecting the user terminal and the distributed authentication server; the data excitation layer acquires an excitation intelligent contract from a history block of the basic chain or a basic chain transaction request; and executing the excitation intelligent contract to transfer the basic chain elements corresponding to the specified user nodes corresponding to the parallel chain link points according to a set distribution rule. The technical scheme of the invention is based on the actual situation of the Chinese translation, utilizes the characteristics of decentralized block chain and distributed broadcast, and can effectively realize the uniqueness determination of the Chinese translation result.

Description

Uniqueness authentication method and identification system of translation result based on block chain

Technical Field

The invention belongs to the technical field of translation, and particularly relates to a block chain-based translation result uniqueness authentication method and a recognition system.

Background

In the case of translating in the minor languages, there is usually a case where one source translation corresponds to a plurality of target translations, for example, in the process of translating vietnamese, pinyin, and kanji, one vietnamese pronunciations corresponds to one unique word, and the corresponding pinyin pronunciations correspond to a plurality of kanji, so that one vietnamese translation may correspond to a plurality of kanji; if a small amount of text to be translated adopts manual translation, the only correct result can be selected with high probability based on the experience of the translator and the context semantics (although the result depends on the translation capability of the translator); however, if a large amount of texts to be translated are provided, the experts usually need to perform subsequent further processing such as checking and proofreading after performing initial translation by using a machine translation technology.

However, the machine translation technology outputs a matching result based on training, a large amount of prior training data is needed, if a large amount of available linguistic data exists, the large-scale machine translation technology can obtain the most probable candidate result through various means, and at least can recommend various results according to probability for reference of an artificial translator; however, in the case of small languages, due to the lack of jealousy of the prior existing training data, the machine translation cannot refer to the existing translations or the corpus for performing large data analysis is not enough, and most of the time, all results can be given only by means of dictionary lookup matching, and the latter gives a set number of results based on the setting, but cannot give a recommendation probability. However, the translation result of a source translation or a to-be-translated text should be objective and unique, and if objective and unique cannot be guaranteed, machine translation will lose meaning, especially for small language translation.

Therefore, the chinese invention patent application with the application number CN201910382004.3 provides a chinese-vietnamese statistical machine translation method with a fused pronunciation feature, which aims to solve the technical defects of poor translation quality caused by limited translation resources of a chinese-vietnamese machine, improves the translation quality compared with the traditional method without the fused pronunciation feature, and can further improve the chinese-vietnamese translation quality compared with other factor corresponding methods.

In addition, the chinese patent application with application number CN201910159512.5 proposes a method for identifying a laos named entity based on a combined neural network, which weakens the dependence of the system on the design of artificial features, avoids the disadvantages of a character serialization labeling method, realizes automatic learning of features by adopting a deep learning segment neural network structure, and completes the identification and classification of entity boundaries by acquiring segment information and integrally distributing labels to segments.

With the wide progress of international communication, the requirement for accurate translation of the languages of the small languages is greater and greater, and the existing translation methods of various languages of the small languages cannot meet the requirement.

In recent years, smart contracts and Blockchain (Blockchain) technologies that support them have attracted great interest worldwide. The intelligent contracts are closely related to the emerging block chain technology platform, and can automatically fulfill increasingly complex stipulations, identification, judgment and uniqueness authentication tasks. The blockchain is only applied to virtual currencies such as zero currency, ethernet currency and the like at the earliest, and as experts in blockchain continuously and deeply research, the blockchain technology can be applied to other industries such as digital publishing, finance, medical treatment, data processing, distributed storage and the like. Because the block chain has the characteristics of decentralization and non-falsification, the data stored in the block chain can be ensured to be unchangeable, and meanwhile, the uniqueness of the data storage corresponding to each node is also reflected by the consensus of all members due to the consensus mechanism adopted by all data chain nodes.

Block chain technology has been primarily utilized in digital publishing, finance, medical care, data processing, distributed storage. For example, application No. CN201810363147.5 discloses an electronic medical record automatic integration and translation system based on the block chain technology, which can help unify electronic medical record templates of other hospitals for corresponding patients called by hospitals diagnosed by patients, and improve the efficiency of acquiring electronic medical record information of patients, and can unify electronic medical records of different hospitals by comprehensively using a unified template field database and a front-end processor, and in order to improve the stability of medical treatment, the electronic medical records can be adapted to the requirements of each hospital by combining the settings of a diagnosis call database of diagnosed patients and a hospital tendency concern sorting condition database. The setting of the pop-up module, the summary information database and the marking module can ensure that a user can inform some summaries to the user when the electronic medical record is closed, so that the phenomenon of information omission is avoided; the Chinese patent application with the application number of CN201810189319.1 provides a method for promoting the copyright application block chain technology, which can mobilize the strength of people, and the masses are historical creators, and have endless wisdom, and rely on the mass management to realize the rapid application and change of the copyright, and bring the opportunity of participating in understanding and income for the masses, so that the important ideas and creation are shared globally; the chinese patent application with application number CN201811505478.4 proposes a block chain-based translator credit management method and system, which can record translation of a translator each time by recording translation of the translator on the block chain, customer feedback and information on dimensions relating to language, field, translation difficulty and the like. Therefore, when the translator provides services for different units, the translator capability can be proved without re-evaluation, and the resource waste is reduced; the method and apparatus for fast generating intelligent contract based on block chain, which is proposed by the chinese patent application with application number CN201811182965.1, adds block chain backup storage technology to the intelligent contract, and performs multi-level redundant storage on the information of the content, execution condition, generation version, etc. of the intelligent contract in a multi-level storage manner, because more time is needed for querying data stored in the block chain, there is a problem of poor timeliness of monitoring and analyzing the intelligent contract, in this embodiment, the intelligent contract data is backed up to the private chain for storage by constructing a private chain form, the private chain has a larger storage space, and because of the controllability of the private chain node, the reading of data on the chain has a faster rate, meanwhile, the information of the contract possibly disputed is further backed up to the local server, the manager preferentially retrieves the large storage data possibly existing from the local server in analyzing the intelligent contract, the analysis speed of the intelligent contract is accelerated.

However, the prior art does not give an effective solution for the uniqueness authentication of translation results, especially for machine translation results in small languages.

Disclosure of Invention

In order to solve the technical problem, the invention provides a uniqueness authentication method and a recognition system of a translation result based on a block chain; the method and the system can be suitable for the uniqueness authentication of all machine translation results, and are particularly suitable for the uniqueness authentication of machine translation results in a small language. The identification system comprises a plurality of block chain nodes, an intelligent contract engine in broadcast communication with the block chain nodes, a user terminal and a plurality of information chain channels for connecting the user terminal and the distributed authentication server; the data excitation layer acquires an excitation intelligent contract from a history block of the basic chain or a basic chain transaction request; and executing the excitation intelligent contract to transfer the basic chain elements corresponding to the specified user nodes corresponding to the parallel chain link points according to a set distribution rule.

Aiming at a machine translation result of a language, after a distributed node authentication block based on a block chain is established, the machine translation result is submitted to the identification system to execute uniqueness authentication, after the uniqueness authentication obtains common identification synchronization of all data chain nodes, the common identification synchronization is added into the identification block as other data chain nodes, and the result is broadcasted. The technical scheme of the invention is based on the actual situation of the Chinese translation (lack of language materials and less dependence on resources), and utilizes the characteristics of decentralized and distributed broadcasting of the block chain, so that the uniqueness of the Chinese translation result can be effectively identified.

Specifically, in a first aspect of the present invention, there is provided a block chain based translation result uniqueness validation system comprising a plurality of block chain nodes, an intelligent contract engine in broadcast communication with the plurality of block chain nodes;

in specific implementation, a user submits a translation result to the block chain node, the block chain node triggers the intelligent contract engine, the intelligent contract engine executes contract operation, a result verification module executes consensus judgment and broadcasts the judgment result to all data nodes of the block chain,

after all data nodes execute consensus synchronization, performing term reduction processing on translation results submitted by the user, inserting the translation results into the block chain as block terms, and determining the translation results as uniqueness nodes;

the block chain node is connected with a plurality of broadcast contract components in a bidirectional mode, and the result verification module connected with the intelligent contract engine comprises a plurality of consensus algorithms.

In terms of hardware implementation, the identification system comprises a user terminal and a plurality of information chain channels for connecting the user terminal and the distributed authentication server;

and a plurality of information chain channels connecting the user terminal and the distributed authentication server, wherein the information chain channels comprise one of a browser, an H5 platform, an applet and an APP client or a combination thereof.

Furthermore, two independent secure communication links of login security verification and key matching verification are further included between the user terminal and the distributed authentication server.

On the formation of a specific blockchain, data nodes of the blockchain are established as follows:

after a first-sending authentication user submits a translation result uniqueness confirmation request to the distributed authentication server through the user terminal, a block chain created node is formed through block chain authentication;

and after the block chain creation node is formed, the data link node which is connected to the distributed authentication server and is formed by the block chain authentication is the rest node of the block chain.

The block chain system also comprises a data excitation layer, wherein the data excitation layer acquires excitation intelligent contracts from historical blocks of the basic chain or basic chain transaction requests; and executing the excitation intelligent contract to transfer the basic chain elements corresponding to the specified user nodes corresponding to the parallel chain link points according to a set distribution rule. The basic chain comprises a block chain consisting of the founding nodes; the parallel link points comprise the rest nodes of the block chain; the intelligent contract engine or the intelligent contract comprises computer executable codes, the computer executable codes are automatically executed according to conditions, and if the execution is successful, all state changes are written into the blocks; otherwise, all states roll back and the initial state is recovered.

In a second aspect of the present invention, the uniqueness recognition system for block chain-based translation results provided in the first aspect is used to implement uniqueness authentication for translation results, especially machine translation results in a small language, and specifically, the method includes the following steps:

s1: forming an intelligent contract which can be compiled into computer executable codes by adopting a Go language;

s2: forming data link nodes of a block chain by using a hybrid algorithm comprising a plurality of consensus algorithms;

s3: receiving a translation result uniqueness authentication request submitted by a user, and triggering the execution of the intelligent contract;

s4: adopting the mixture algorithm to carry out consensus verification, and broadcasting a verification result to all other data link nodes of the block chain;

s5: if all the data link nodes realize consensus synchronization, carrying out term reduction processing on the translation result submitted by the user;

s6, inserting the translation result after the reduction processing into the block chain as a block term;

s7: and broadcasting the result after the consensus synchronization.

As a further preferable mode, before step S4, the method further includes:

s31, judging whether the execution result of the intelligent contract is successful, if so, entering the step S4;

otherwise, quitting the authentication.

As still further another preferred method, before step S4, the method further includes:

s31, judging whether the execution result of the intelligent contract is successful, if so, entering the step S4;

otherwise, returning to step S3, continuing to receive the translation result uniqueness authentication request submitted by the user.

In a third aspect, the present invention further provides a distributed term authentication distributed node system, where the distributed node system includes each data link node in the blockchain system, and is configured to implement the aforementioned uniqueness authentication method; the invention also discloses a uniqueness authentication method based on the distributed term authentication distributed node system.

The above three aspects fully and clearly describe the technical solution of the present invention for implementing translation term authentication by using the block chain technology, wherein the related concepts used therein are all well known to those skilled in the art, for example, refer to the prior art mentioned in the background. The invention has the creativity that the block chain technology is introduced into the uniqueness authentication process of the translation result for the first time, and a complete and realizable technical scheme is provided by combining the characteristics of the translation term, particularly the machine translation result of the language.

In order to facilitate a better understanding of the technical solutions of the present invention for those skilled in the art, more or better implementations of the technical solutions of the present invention will be made in the detailed description of the embodiments with reference to the accompanying drawings. However, the scope of the present invention is not limited to the embodiments described above, but only by the actual contents of the claims.

Further advantages of the invention will be apparent in the detailed description section in conjunction with the drawings attached hereto.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a block chain-based translation result uniqueness recognition system according to an embodiment of the present invention

FIG. 2 is a schematic diagram of the inner body of the uniqueness recognition system of FIG. 1

FIG. 3 is a data chain communication diagram of the uniqueness recognition system of FIG. 1

FIG. 4 is a flowchart of a translation result uniqueness authentication method according to an embodiment of the present invention

FIG. 5 is a further preferred schematic of the process of FIG. 4

Detailed Description

The invention is further described with reference to the following drawings and detailed description:

fig. 1 is a schematic structural diagram of a uniqueness recognition system for translation results based on block chains according to an embodiment of the present invention.

Fig. 1 provides a uniqueness recognition system based on translation results of a blockchain, which includes a plurality of blockchain nodes, and an intelligent contract engine in broadcast communication with the plurality of blockchain nodes.

In the embodiment of fig. 1, a user submits a translation result to the blockchain node, the blockchain node triggers the intelligent contract engine, the intelligent contract engine performs contract operation, then the result verification module performs consensus judgment, and broadcasts a judgment result to all data nodes of the blockchain,

after all the data nodes execute consensus synchronization, the translation results submitted by the users are subjected to term reduction processing and inserted into the block chain as block terms, and the block terms are used as uniqueness identification nodes of the translation results.

In all embodiments of the present invention, the user submits the translation result, including the following cases:

the user submits the result of the machine translation;

the machine translation engine automatically submits after outputting a translation result;

preferably, in this embodiment, the language machine translation engine outputs all the machine translation results of each to-be-translated text, and submits all the machine translation results to the uniqueness recognition system one by one; the latter input waits for the affirmation result of the former input, and if the former input is submitted, the former input is inserted into the block chain as a block term, and then the input is stopped; otherwise, continuing inputting;

as another preference, the language machine translation engine outputs all the machine translation results of each text to be translated, and submits all the machine translation results to the uniqueness recognition system simultaneously and in parallel.

Next, referring further to fig. 2, on the uniqueness determination system internal body, the block link points are connected with a plurality of broadcast contract components in a bidirectional manner, and the result verification module connected with the intelligent contract engine comprises a plurality of consensus algorithms.

Referring to fig. 3 on the basis of fig. 1-2, a data chain communication diagram of the uniqueness recognition system is given.

In terms of hardware implementation, the identification system comprises a user terminal and a plurality of information chain channels for connecting the user terminal and the distributed authentication server;

in the preferred example of fig. 1, the user terminal of fig. 3 is a mobile portable device that includes a machine translation engine for the chinese language.

And a plurality of information chain channels connecting the user terminal and the distributed authentication server, wherein the information chain channels comprise one of a browser, an H5 platform, an applet and an APP client or a combination thereof.

Furthermore, two independent secure communication links of login security verification and key matching verification are further included between the user terminal and the distributed authentication server.

In the authentication system of fig. 1-3, the blockchain is established based on the following:

after a first-sending authentication user submits a translation result uniqueness confirmation request to the distributed authentication server through the user terminal, a block chain created node is formed through block chain authentication;

and after the block chain creation node is formed, the data link node which is connected to the distributed authentication server and is formed by the block chain authentication is the rest node of the block chain.

The block chain system also comprises a data excitation layer, wherein the data excitation layer acquires excitation intelligent contracts from historical blocks of the basic chain or basic chain transaction requests; and executing the excitation intelligent contract to transfer the basic chain elements corresponding to the specified user nodes corresponding to the parallel chain link points according to a set distribution rule. The basic chain comprises a block chain consisting of the founding nodes; the parallel link points comprise the rest nodes of the block chain;

the intelligent contract engine or the intelligent contract comprises computer executable codes, the computer executable codes are automatically executed according to conditions, and if the execution is successful, all state changes are written into the blocks; otherwise, all states roll back and the initial state is recovered.

Intelligent contracts, which typically compile agreed-upon results of participant negotiations into computer executable code; the readability of the natural language is reserved, the writing mode is standardized, the semantic definition is enhanced, and the intelligent contract programming language can be automatically converted.

As a non-limiting example, the programming languages of the smart contracts in this example include EtherFang's identity, the Go language adopted by HyperLedger, and the like.

Taking hyperLedger as an example, the structure of the hyperLedge Fabric intelligent contract is divided into the following four parts: main, init, query, and invoke functions.

(1) The main function: as an entry to the program;

(2) init function: invoked when the smart contract is first deployed,

is responsible for all initialization work;

(3) query function: is responsible for all queries;

(4) invoke function: is responsible for executing the call of the function.

In the above embodiment of the present invention, the smart contract is used as a service program, but the program is not run in a general server but is run on a blockchain. The intelligent contract is visible to all, and its code data and running state are stored on the blockchain.

The execution of the intelligent contracts is not specific to a hardware device, and its code is executed by all the devices participating in mining in the network. The intelligent contract is executable code deployed on a blockchain, can be compiled and generated by using Solidity and some online compiling tools, and can be automatically executed according to certain conditions. The intelligent contract also has the atomic property similar to the transaction, and is either successfully executed, all state changes are written into the block, or the execution fails, all states roll back, and the initial state is recovered.

Consensus algorithm (consensus algorithm) refers to an algorithm that enables all participants to agree (agree) on the task execution result in a multi-party collaborative environment.

In the concrete implementation, one or a combination of a workload proof algorithm POW, a rights and interests proof algorithm POS and a practical Byzantine fault-tolerant algorithm PBFT is adopted, and the term reduction module comprises a regular judgment expression.

In the present invention, the consensus algorithm used comprises:

the key of the algorithm is to add different random values into the block head and calculate the hash value of the block head until the hash value is less than or equal to a target value, and the process of solving the problem is called mining (mining).

PoS is a consensus algorithm used by Point-to-Point coins (PPCoin), and the core idea is that on the basis of PoW, in order to reduce the workload of computing Hash by PoW, the difficulty of participating in ore excavation is influenced by using the age of coins as a variable, and the ore excavation difficulty is inversely proportional to the product of the number of tokens owned by miners in a block chain and the token holding time.

PBFT is one of the consensus algorithms used by the open source project Hyperledger, is an improvement of the Byzantine algorithm, reduces the complexity of the algorithm, and has higher practicability compared with the original algorithm.

And (3) a mixed class consensus algorithm: for example, the Casper algorithm, which is a mixture of PoW and PoS, the Tangaroa algorithm, which is a mixture of Raft and PBFT, and the like.

In one embodiment of the invention, a Go language is adopted to establish a Hyperridge Fabric intelligent contract, a regular expression is utilized to establish a term convention, and consensus judgment is executed based on a Casper algorithm.

The uniqueness certification system of fig. 1-3 can be used for realizing the uniqueness certification of translation results, in particular machine translation results of languages, and specifically, the method comprises the following steps, and the specific certification method refers to the flow described in fig. 4-5.

Referring to FIG. 4, the method includes steps S1-S7:

s1: forming an intelligent contract which can be compiled into computer executable codes by adopting a Go language;

s2: forming data link nodes of a block chain by using a hybrid algorithm comprising a plurality of consensus algorithms;

s3: receiving a translation result uniqueness authentication request submitted by a user, and triggering the execution of the intelligent contract;

s4: adopting the mixture algorithm to carry out consensus verification, and broadcasting a verification result to all other data link nodes of the block chain;

s5: if all the data link nodes realize consensus synchronization, carrying out term reduction processing on the translation result submitted by the user;

s6, inserting the translation result after the reduction processing into the block chain as a block term;

s7: and broadcasting the result after the consensus synchronization.

Referring to fig. 5, as a further preferred embodiment, before step S4, the method further includes:

s31, judging whether the execution result of the intelligent contract is successful, if so, entering the step S4;

otherwise, quitting the authentication.

Although not shown, as a further still another preferred method, before step S4, the method further includes:

s31, judging whether the execution result of the intelligent contract is successful, if so, entering the step S4;

otherwise, returning to step S3, continuing to receive the translation result uniqueness authentication request submitted by the user.

The related concepts related to blockchains (including nodes, blocks, smart contracts, consensus, bitcoin, ether house, foundational blocks, foundational nodes, data incentives, etc.) for all embodiments of the present invention are in compliance with prior art related conventions, such as those mentioned in the background and other known prior art, which are incorporated herein by reference.

In addition, in the present invention, some features have the same meaning, such as identification and authentication, intelligent contracts and intelligent contract engines, term conventions and term convention modules, and the like.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. A uniqueness certification system based on translation results of blockchains, the certification system comprising a plurality of blockchain nodes, an intelligent contract engine in broadcast communication with the plurality of blockchain nodes;

the method is characterized in that:

the user submits the translation result to the block chain node, the block chain node triggers the intelligent contract engine, the intelligent contract engine executes consensus judgment by the result verification module after contract operation, and broadcasts the judgment result to all data nodes of the block chain,

after all data nodes execute consensus synchronization, performing term reduction processing on translation results submitted by the user, inserting the translation results into the block chain as block terms, and determining the translation results as uniqueness nodes;

the block chain node is connected with a plurality of broadcast contract components in a bidirectional mode, and the result verification module connected with the intelligent contract engine comprises a plurality of consensus algorithms.

2. The qualification system of claim 1, wherein: the identification system comprises a user terminal and a plurality of information chain channels for connecting the user terminal and the distributed authentication server, and the data nodes of the block chain are established according to the following modes:

after a first-sending authentication user submits a translation result uniqueness confirmation request to the distributed authentication server through the user terminal, a block chain created node is formed through block chain authentication;

and after the block chain creation node is formed, the data link node which is connected to the distributed authentication server and is formed by the block chain authentication is the rest node of the block chain.

3. The qualification system of claim 2, wherein: and a plurality of information chain channels connecting the user terminal and the distributed authentication server, wherein the information chain channels comprise one of a browser, an H5 platform, an applet and an APP client or a combination thereof.

4. The qualification system of claim 2 or 3, wherein: the user terminal and the distributed authentication server also comprise two independent secure communication links of login security verification and key matching verification.

5. The qualification system of claim 1 or 2, wherein: the data excitation layer acquires an excitation intelligent contract from a history block of the basic chain or a basic chain transaction request; and executing the excitation intelligent contract to transfer the basic chain elements corresponding to the specified user nodes corresponding to the parallel chain link points according to a set distribution rule.

6. The qualification system of claim 6, wherein: the basic chain comprises a block chain consisting of the founding nodes; the parallel link points comprise the remaining nodes of the blockchain.

7. The qualification system of any of claims 1-3 or 6, wherein: the intelligent contract engine comprises computer executable codes, the computer executable codes are automatically executed according to conditions, and if the execution is successful, all state changes are written into the blocks; otherwise, all states roll back and the initial state is recovered.

8. A translation result uniqueness authentication method is realized on the basis of a uniqueness recognition system of a block chain-based translation result requiring any one of 1-7, and is characterized in that:

the method comprises the following steps:

s1: forming an intelligent contract which can be compiled into computer executable codes by adopting a Go language;

s2: forming data link nodes of a block chain by using a hybrid algorithm comprising a plurality of consensus algorithms;

s3: receiving a translation result uniqueness authentication request submitted by a user, and triggering the execution of the intelligent contract;

s4: adopting the mixture algorithm to carry out consensus verification, and broadcasting a verification result to all other data link nodes of the block chain;

s5: if all the data link nodes realize consensus synchronization, carrying out term reduction processing on the translation result submitted by the user;

s6, inserting the translation result after the reduction processing into the block chain as a block term;

s7: and broadcasting the result after the consensus synchronization.

9. The method of claim 8, wherein before step S4, further comprising:

s31, judging whether the execution result of the intelligent contract is successful, if so, entering the step S4;

otherwise, quitting the authentication.

Images