CN109583231B - Automatic generation method for multiple identifiers of data object of scientific data service platform - Google Patents

Abstract

The invention provides a method for automatically generating multiple identifiers of a data object of a scientific data service platform, which has strong system operability and is easy to realize. The system comprises: the system comprises a digital identifier application module, a digital identifier auditing module, a digital identifier submitting module and a digital identifier converting module. The digital identification application module is used for the user to select scientific data for applying for registering the digital identification and submit application information. The digital identification auditing module is used for auditing all application information by the system; the digital identifier submitting module is used for automatically registering a digital identifier for the selected scientific data; the digital identifier conversion module is used for converting a plurality of digital identifiers in the system; the system mainly serves a scientific data service and storage platform and can also serve platforms and systems which can be used for other data identification services; the invention is suitable for a scientific data service platform.

Description

Automatic generation method for multiple identifiers of data object of scientific data service platform

Technical Field

The invention relates to the field of computers, in particular to a method for automatically generating multiple identifiers of a data object of a scientific data service platform.

Background

At present, digital identification becomes an important mechanism for identifying digital resources, and a digital resource can be uniquely identified by registering a unique digital identification, which plays a very important role in protecting intellectual property rights. However, most of the scientific data service platforms still apply for and register digital identifications only in a single digital identification, have no expandability, and do not support a plurality of digital identifications, and most of the registration modes are only limited in manual registration, so that the working efficiency is greatly reduced, and meanwhile, the fault tolerance rate is low.

In the prior art, most of the existing technologies still adopt a manual mode to apply for and register digital identifiers, and no auditing mechanism exists, so that the quality of scientific data of the digital identifiers registered by a scientific service platform is uneven. At present, a similar solution is to encode the digital identifier manually, manually fill in the files and information required for registration, and call the files and information in a remote API calling manner after completion of the filling. The method still adopts a manual mode to fill in the documents required by registration to a great extent, has low working efficiency, does not really realize the automation of the registered digital identification, is easy to generate errors and has poor fault tolerance rate.

Disclosure of Invention

The invention provides a method for automatically generating multiple identifiers of a data object of a scientific data service platform, which aims to solve the problems of low working efficiency, poor fault tolerance rate and adoption of only single-character identification in the prior art. The problem of expandability is solved.

In order to solve the technical problem, a method for automatically generating multiple identifiers of a data object of a scientific data service platform specifically comprises the following steps:

s1: the user selects the data of the registration identifier to be applied, fills in and submits the application;

s2, checking and auditing the scientific data applied for registration, if the checking is passed, S3 is carried out, otherwise, the operation is finished;

s3: and converting the data of the approved application registration identifier into an XML document through an automatic method, and registering various identifiers.

Further, the selecting in S1 is to register the number of scientific data of the majority word identifier without limitation.

Further, the specific method of S2 is as follows:

s2.1: after the user submits the application, the corresponding application information can be automatically stored in the system;

s2.2: and automatically checking all application information in the system, and if the checking is passed, performing S3

If not, the registration is refused.

Further, the specific method of S3 is as follows:

s3.1: reading a current system version number from a system database;

s3.2: reading a data ID of scientific data applying for registering a plurality of digital labels from the application information;

s3.3: judging whether the current version of the system is matched with the version number corresponding to the current processing function, if so, performing S3.5, otherwise, performing S3.4;

s3.4: jumping to the processing function of the next version number, and performing S3;

s3.5: for each kind of digital mark in the current edition system, respectively reading necessary information in the application information, generating an XML document required by registering the kind of digital mark according to each kind of digital mark, and storing the XML document in the system;

s3.6: according to the digital identification of each kind in the current version system, respectively calling the automatic interface corresponding to the digital identification to submit the generated registration document, and registering a plurality of digital identifications;

s3.7: and the system extracts the newly registered digital identification from the submitted feedback result and fills the new digital identification into a field corresponding to the corresponding scientific data according to the data ID in the application information.

Further, the specific steps of S3.1 are:

the following function is defined: assuming that the function f (x, y) is a function for acquiring data in the digital identification, f (x, y) can be defined as:

in the above expression, x is a query parameter, the range of x is 0-4, y is a digital identifier recorded in the system, and different attributes in the digital identifier are respectively returned according to different values of x:

if the value of x is 0, the function returns the current version number in the digital identifier to obtain the version number of the digital identifier of the current system;

if the value of x is 1, the function returns the total number of the digital identification types of the current version recorded by y to obtain the number of the digital identification types contained in the current version;

if the value of x is 2, the function returns the type of the digital identifier recorded in y to acquire the type of the digital identifier of y;

if the value of x is 3, the function returns the data ID of the scientific data corresponding to y to acquire the data ID of the scientific data corresponding to y;

if x takes the value of 4, the function returns the numeric identification number of y.

Further, the multi-digit identification described in S3.6 may be logically represented as:

Identification＝(v₁，t₁，c_i，d₁，n_i)，

wherein:

v₁recording the version number of the current system;

t₁recording the number of the digital identification version numbers adopted by the current system;

c_ia category name identified for the ith category number;

d₁recording the ID of the scientific data corresponding to the digital identification;

n_iis the i-th type number identification of the new application.

Further, the processing method of 3.7 is as follows:

defining a variable v₁Record the version number of the current system, t₁Recording the number of the digital identification version numbers adopted by the current system, d₁Recording the ID of scientific data selected by a user, wherein the function is g (v) and is a function for acquiring the digital identifier:

wherein process _ i (i) is a function of the ith version of the processing system, specifically defined as

In the above function, c_iName of a category identified for the ith category number, where n_iThe system automatically applies for the i-th type digital identifier to obtain a new digital identifier.

Another object of the present invention is to provide a system for implementing the above method for automatically generating multiple identifiers for data objects, the system comprising: the digital identifier application module, the digital identifier auditing module, the digital identifier submitting module and the digital identifier conversion module;

wherein:

the data application module is used for selecting data to be applied for registering the identifier by a user, filling necessary application information and submitting an application;

the data auditing module is used for auditing all application information by the system and verifying and auditing the scientific data applied for registration;

the data submission module is used for automatically submitting application information to the approved scientific data and registering various identifiers;

the digital identifier conversion module is used for performing mutual conversion among a plurality of digital identifiers in the system;

furthermore, the digital identifier submitting module can automatically submit application information, return an application result in real time and automatically backfill the digital identifier.

Further, the digital identification conversion module can convert the digital identifications used in the system into each other.

Furthermore, the digital identifier submitting module adopts a plurality of digital identifiers, has expansibility and supports the expansion of any plurality of digital identifier types.

The technical scheme of the invention has the following beneficial effects:

in the scheme, through the digital identifier application module, a user can select any number of scientific data for registering the multi-digital identifiers, complete the work of applying and registering the multi-digital identifiers after filling necessary application information and submitting the application, simplify the operation steps and the flow and accelerate the efficiency. Through the digital identifier auditing module, the system can automatically audit all application information, and the application which is not approved will not register a plurality of digital identifiers. And automatically generating a file required by registering the multi-character identifier by the system for the approved application through the digital identifier submitting module, automatically submitting the application for registering the multi-character identifier, and automatically filling the newly obtained digital identifier after successful application into the database. Through the digital mark conversion module, the various types of digital marks can be converted with each other. In addition, the system supports the expansion of the types of the multiple character identifications, the same system with different versions can add and delete the types and the number of the multiple character identifications at will, is not limited by the types of the digital identifications, and has strong expandability. Therefore, the system of the automatic generation method of the multiple identifiers of the data object can greatly simplify the operation flow and steps of registering the digital identifiers, quicken the working efficiency and realize the automation of registration.

Drawings

Fig. 1 is a schematic system structural diagram of a scientific data service platform data object multi-identifier automatic generation method provided by an embodiment of the present invention.

Fig. 2 is a schematic flow chart of a system according to an embodiment of the present invention.

Fig. 3 is a flowchart of automatic generation of a digital identifier according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a digital identity submission module according to an embodiment of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantages of the present invention more apparent, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

The invention provides a method for automatically generating multiple identifiers of a data object of a scientific data service platform, aiming at the problems that the existing scientific data service platform adopts single digital identification and most of the existing scientific data service platforms adopt manual operation.

Example one

Referring to fig. 1, a system for a scientific data service platform data object multiple identifier automatic generation method provided by an embodiment of the present invention includes: the system comprises a digital identifier application module, a digital identifier auditing module, a digital identifier submitting module and a digital identifier conversion module.

The digital identification application module is used for the user to select scientific data for applying and registering the multi-character identification and submit application information;

the digital identifier auditing module is used for auditing all application information by the system, verifying and auditing the scientific data applied for registration, and the application which is not approved cannot register the digital identifier;

the digital identifier submitting module is used for automatically submitting application information to the approved scientific data and registering a plurality of digital identifiers;

the digital identifier conversion module is used for performing mutual conversion among a plurality of types of digital identifiers in the system;

according to the system of the scientific data service platform data object multi-identifier automatic generation method, the user can randomly select and register the scientific data of the multi-character identifiers through the digital identifier application module, the work of applying and registering the multi-character identifiers can be completed after necessary application information is filled and submitted, the operation steps and the process are simplified, and the work efficiency is improved. Through the digital identifier auditing module, the system can automatically audit and verify all application information, and most of the digital identifiers cannot be registered for data which cannot be audited. And automatically generating files required by registering the multiple character identifiers by the system for the approved application information through the digital identifier submitting module, automatically submitting the application registration digital identifiers, and automatically filling the newly obtained digital identifiers after successful application into the database. Therefore, the system of the automatic generation method of the multiple identifiers of the data object can greatly simplify the operation flow and steps of registering the digital identifiers, quicken the working efficiency and realize the automation of registration.

In a specific embodiment of the foregoing system for automatically generating multiple identifiers for data objects of a scientific data service platform, the multiple-number identifier may be logically represented as:

Identification＝(v₁，t₁，c_i，d₁，n_i)，

wherein:

v₁recording the version number of the current system;

t₁recording current system acquisitionThe number of the version number is marked by the number;

c_ia category name identified for the ith category number;

d₁recording the ID of the scientific data corresponding to the digital identification;

n_iis the i-th type digital mark of the new application;

in the embodiment of the invention, referring to fig. 1, a system of a method for automatically generating multiple identifiers of data objects of a scientific data service platform is provided. The system comprises 4 modules: the system comprises a digital identifier application module, a digital identifier auditing module, a digital identifier submitting module and a digital identifier converting module. The system database stores 2 kinds of data simultaneously: there is digital identification data and non-digital identified data. The 4 modules interact data through a database of the system. The digital identification application module selects scientific data without digital identification and stores the application information into the data, the digital identification auditing module reads the data application information from the database and backfills the auditing result into the database, the digital identification submitting module automatically stores the successfully applied data with the multiple digital identifications into the database, and the digital identification conversion module can be used for mutually converting different digital identifications.

In the embodiment of the invention, referring to fig. 2, a system flow diagram is shown. The user selects the scientific data to be applied for registration on the scientific data service platform, and after the necessary application registration information is filled, the application information can be submitted and stored in the database. The system automatically checks the application information, the application which fails to check cannot register the multi-character identifier, the application which passes the check can automatically generate an XML document required by registration through the data submission module, the XML document is automatically uploaded through the API, and the generated digital identifier is backfilled into a database.

In the embodiment of the present invention, referring to fig. 3, a flow chart of automatic generation of a digital identifier is shown. The system has strong expansibility, can support any number of digital identifications, and can perform corresponding processing on different version numbers after acquiring the version number of the digital identification of the current system, generate the digital identification contained in the corresponding version number and perform automatic registration.

For the above process flow, the following function is defined: assuming that the function f (x, y) is a function for acquiring data in the digital identification, f (x, y) can be defined as:

in the above expression, x is a query parameter, the range of x is 0-4, y is a digital identifier recorded in the system, and different attributes in the digital identifier are respectively returned according to different values of x:

if the value of x is 0, the function returns the current version number in the digital identifier to obtain the version number of the digital identifier of the current system;

if the value of x is 1, the function returns the total number of the digital identification types of the current version recorded by y to obtain the number of the digital identification types contained in the current version;

if the value of x is 2, the function returns the type of the digital identifier recorded in y to acquire the type of the digital identifier of y;

if the value of x is 3, the function returns the data ID of the scientific data corresponding to y to acquire the data ID of the scientific data corresponding to y;

if x takes the value of 4, the function returns the numeric identification number of y.

Further, the multi-digit identification described in S3.6 may be logically represented as:

Identification＝(v₁，t₁，c_i，d₁，n_i)，

wherein:

v₁recording the version number of the current system;

t₁recording the number of the digital identification version numbers adopted by the current system;

c_ia category name identified for the ith category number;

d₁recording the ID of the scientific data corresponding to the digital identification;

n_iis the i-th type number identification of the new application.

Further, the processing method of 3.7 is as follows:

defining a variable v₁Record the version number of the current system, t₁Recording the number of the digital identification version numbers adopted by the current system, d₁Recording the ID of scientific data selected by a user, wherein the function is g (v) and is a function for acquiring the digital identifier:

wherein process _ i (i) is a function of the ith version of the processing system, specifically defined as

In the above function, c_iName of a category identified for the ith category number, where n_iThe system automatically applies for the i-th type digital identifier to obtain a new digital identifier.

In the embodiment of the invention, referring to fig. 4, a schematic diagram of a digital identifier submission module is shown. The data submitting module is provided with sub-processing modules of various types of data identifications in the current system, each sub-module generates digital identification registration information of each type, the scheduler transmits the registration information of various types of digital identifications to the registration sources of various types of digital identifications respectively, and the various types of digital identification registration sources transmit the newly registered digital identifications back to the digital identification submitting module and the digital identification submitting module stores the newly registered digital identifications into the database.

Example two

The second embodiment provides a specific practical application embodiment corresponding to the method and the inventive content of the present invention.

1. The user selects data to be applied for registering the majority character identification in the scientific data service platform, application information is filled in the system, and the data IDs of the selected scientific data are respectively as follows: 1,2,3,4,5. After the necessary application information is filled in, the system automatically stores the application information into the system.

2. After the application is completed, the system automatically checks the application information, if the verification is passed, the system automatically performs the third step to register the multi-character identifier, and if the verification is not passed, the multi-character identifier will not be registered.

3. The system reads an existing digital identifier from the database and calls the function f (x, y) to obtain the version number of 2.0 in the current system.

4. The system reads the data ID of the scientific data applied for registration from the application information stored in the first step: 1,2,3,4,5.

5. The system finds the processing function process _2(2) matching with the 2.0 version by matching the current system version (2.0) with the processing functions of the versions in the current system.

6. In the process of process _2(2) function processing, the system first reads necessary information from the application information, generates an XML document required by each digital identifier, and stores the XML document in the system. After the storage is finished, the system calls the automatic interfaces of all the digital identifications respectively to submit the generated registration document and register a plurality of digital identifications.

7. The automation interface of the digital identification can return the newly generated digital identification, the version of the current system is 2.0, and the system has 2 kinds of digital identification names which are respectively: "DOI", "Handle", the system generates identification for 2 kinds of digital identification respectively:

1. assuming that the new numeric identification returned by the DOI's automation interface is "10.5412/123", the system generates numeric identifications for "DOI" as (2.0, 2, "DOI", (1, 2, 3, 4, 5), "10.5412/123").

2. Assuming that the new numeric identifier returned by the automation interface of the Handle is "86/124/474," the system generates numeric identifiers for "Handle" as (2.0, 2, "Handle", (1, 2, 3, 4, 5), "86/124/474").

8. After the system completes the construction of the 2 kinds of digital identifications, process _2(2) returns and writes all the constructed digital identifications into a database, and simultaneously, the system performs the following steps according to the data ID in the application information: 1,2,3,4,5. And filling the new digital identification obtained by the application into the scientific data corresponding to the data ID.

Claims (9)

1. A method for automatically generating multiple identifiers of a data object of a scientific data service platform is characterized by specifically comprising the following steps:

s1: the user selects the data of the registration identifier to be applied, fills in and submits the application;

s2, checking and auditing the scientific data applied for registration, if the checking is passed, S3 is carried out, otherwise, the operation is finished;

s3: converting the approved data of the application registration identifier into an XML document by an automatic method, and registering various identifiers;

the specific method of S3 is as follows:

s3.1: reading a current system version number from a system database;

s3.2: reading a data ID of scientific data applying for registering a plurality of digital labels from the application information;

s3.3: judging whether the current version of the system is matched with the version number corresponding to the current processing function, if so, performing S3.5, otherwise, performing S3.4;

s3.4: jumping to the processing function of the next version number, and performing S3;

s3.5: for each kind of digital mark in the current edition system, respectively reading necessary information in the application information, generating an XML document required by registering the kind of digital mark according to each kind of digital mark, and storing the XML document in the system;

s3.6: according to the digital identification of each kind in the current version system, respectively calling the automatic interface corresponding to the digital identification to submit the generated registration document, and registering a plurality of digital identifications;

s3.7: and the system extracts the newly registered digital identification from the submitted feedback result and fills the new digital identification into a field corresponding to the corresponding scientific data according to the data ID in the application information.

2. The method for multi-identifier automatic generation of data objects according to claim 1, wherein said selecting in S1 is performed on the number of scientific data to which a multi-character identifier is to be registered, without any number limitation.

3. The method for automatically generating multiple identifiers for data objects according to claim 1, wherein the specific method of S2 is as follows:

s2.1: after the user submits the application, the corresponding application information can be automatically stored in the system;

s2.2: and automatically checking all application information in the system, if the checking is passed, performing S3, and if the checking is not passed, rejecting to perform registration.

4. The method according to claim 1, wherein the specific steps of S3.1 are:

the following function is defined: setting function

To obtain the function of the data in the digital identification

Can be defined as

，

In the above-mentioned expression, the expression,

in order to query the parameters of the program,

the value range of (A) is 0 to 4,

for the digital identification of records in the system, according to

Respectively returning different attributes in the digital identification:

if it is

If the value of (1) is 0, the function returns the current version number in the digital identifier to obtain the version number of the digital identifier of the current system;

if it is

Is 1, the function returns

The total number of the recorded digital identification types of the current version is obtained, and the number of the digital identification types contained in the current version is obtained;

if it is

Is 2, the function returns

Of the kind of the digital identifier recorded in, obtaining

The number of (2) identifies the category;

if it is

Is 3, the function returns

The data ID of the corresponding scientific data in (1) is obtained

The data ID of the corresponding scientific data;

if it is

Is 4, the function returns

The numerical identification number of (a).

5. The method of claim 4, wherein said multi-digit identification in S3.6 is logically represented as:

Identification = （v ₁ ，t ₁ ，c _i ，d ₁ ，n _i ），

wherein:

v ₁ recording the version number of the current system;

t ₁ recording the number of the digital identification version numbers adopted by the current system;

c _i a category name identified for the ith category number;

d ₁ recording the ID of the scientific data corresponding to the digital identification;

n _i is the i-th type number identification of the new application.

6. The method according to claim 4, wherein the processing method of S3.7 is as follows:

defining variables

The version number of the current system is recorded,

recording the number of the number identification version numbers adopted by the current system,

recording the ID of scientific data selected by the user as a function

To obtain the function of the digital identifier:

wherein the content of the first and second substances,

a function of the ith version of the processing system is specifically defined as

，

In the function described above,

a category name identified for the ith category number, wherein

The system automatically applies for the i-th type digital identifier to obtain a new digital identifier.

7. A system for implementing the method for automatic generation of multiple identifiers of data objects according to any one of claims 1 to 6, the system comprising: the digital identifier application module, the digital identifier auditing module, the digital identifier submitting module and the digital identifier conversion module;

wherein:

the digital identification application module is used for selecting data to be applied for registering the identifier by a user, filling necessary application information and submitting an application;

the digital identification auditing module is used for auditing all application information by the system and verifying and auditing the scientific data applied for registration;

the digital identifier submitting module is used for automatically submitting application information to the approved scientific data and registering various identifiers;

the digital identifier conversion module is used for performing mutual conversion among a plurality of digital identifiers in the system;

8. the system of claim 7, wherein the digital identifier submitting module is capable of automatically submitting application information, returning an application result in real time, and automatically backfilling the digital identifier; the digital identifier submitting module adopts a plurality of digital identifiers, has expansibility and supports the expansion of any plurality of digital identifier types.

9. The system of claim 7, wherein the digital identifier conversion module is capable of converting digital identifiers used in the system to one another.

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