CN116719817A - Digital object relationship tracing method and system for technological resources - Google Patents

Abstract

The invention provides a digital object relationship tracing method and a digital object relationship tracing system for science and technology resources, wherein the method comprises the following steps: according to the obtained target data, calling an identification registration module to carry out identification registration on the obtained target data, and endowing a registered identification to a digital object corresponding to the target data; the target data is uploaded to a blockchain for storage asynchronously through the identification registration module, and the identification of the target data, the hash value of the blockchain and the digital object corresponding to the target data are stored in a local database; according to the execution operation of the user on the subprocess, calling a subprocess recording module to record and store the subprocess; and according to the query operation of the user on the target data, invoking a technological resource use condition visualization module to process the record information corresponding to the query operation, and obtaining a visualization result. The method aims at counting and visually displaying the operation of the technological resource by the user while recording and tracking the collaboration process of the technological resource.

Description

Digital object relationship tracing method and system for technological resources

Technical Field

The invention relates to the technical field of data tracing, in particular to a digital object relationship tracing method and system for technological resources.

Background

Data is becoming a key production element at the moment digital economies become the key force to remodel global economic structure, changing global competitive patterns. Technological resources are taken as a special and important data, become strategic and basic resources for scientific research and development, and become an important field of international competition.

In order to promote efficient operation and collaborative development of scientific research institutions, full life cycle management and service of scientific resources are required to meet requirements of access, convergence, processing, sharing and discovery of the scientific resources. In the sharing process of the technological resources, the authenticity, reliability and integrity of the technological resources need to be ensured. Such as: users often need to verify the authenticity of their source, author, time, version, manufacturing mode, etc. information when viewing and manipulating data. If the record of the technological resource cooperation process is lacking, the technological resource cannot be easily found when being illegally tampered, and the credibility and the integrity of the technological resource cannot be ensured. Therefore, the collaborative process of recording and tracking technological resources by using the data tracing technology becomes extremely important.

Disclosure of Invention

In view of this, the present invention provides a digital object relationship tracing method for technological resources. The method aims at counting and visually displaying the operation of the technological resource by the user while recording and tracking the collaboration process of the technological resource.

In a first aspect of the embodiment of the present invention, a digital object relationship tracing method for technological resources is provided, where the method includes:

according to the obtained target data, calling an identification registration module to carry out identification registration on the obtained target data, and endowing a registered identification to a digital object corresponding to the target data;

the target data is uploaded to a blockchain for storage asynchronously through the identification registration module, and the identification of the target data, the hash value of the blockchain and the digital object corresponding to the target data are stored in a local database;

according to the execution operation of the user on the subprocess, calling a subprocess recording module to record and store the subprocess;

and according to the query operation of the user on the target data, invoking a technological resource use condition visualization module to process the record information corresponding to the query operation, and obtaining a visualization result.

Optionally, calling an identifier registration module to perform identifier registration on the obtained target data, and endowing the registered identifier to a digital object corresponding to the target data, including:

sending a first call request to the identification registration module;

under the condition that the first calling request is received by the identification registration module, according to the received registration parameter request sent by the identification registration module, sending attribute parameters of the target data to the identification registration module;

carrying out validity check on the attribute parameters of the received target data through the identification registration module;

under the condition that verification is passed, calling an external service platform to perform identification registration on the target data through the identification registration module;

assigning the registered identification to a digital object corresponding to the target data;

and receiving feedback information sent by the identification registration module.

Optionally, the calling the sub-process recording module to record and store the sub-process according to the execution operation of the user on the sub-process includes:

sending a second call request to the sub-process recording module according to the execution operation of the user on the sub-process;

Analyzing the received second call request through the sub-process recording module, and determining attribute information of the sub-process in the second call request;

carrying out validity check on attribute information of the subprocess through the subprocess recording module;

under the condition that the verification is passed, recording and storing the subprocesses through the subprocess recording module;

and receiving feedback information sent by the subprocess recording module.

Optionally, the step of calling the technology resource use condition visualization module to process the record information corresponding to the query operation according to the query operation of the user on the target data to obtain a visualization result includes:

according to the query operation of the user, a third call request is sent to the technological resource use condition visualization module;

analyzing the received third call request through the scientific and technological resource use condition visualization module to determine data information to be queried;

and acquiring the record information stored by the subprocess record module according to the information to be queried, and processing the record information to obtain a visual result.

Optionally, in the case that the information to be queried is a target operator relationship diagram, the acquiring, according to the information to be queried, the record information stored by the sub-process record module, and processing the record information, to obtain a visual result, includes:

Carrying out validity check on the identification of the target operator;

under the condition that verification is passed, obtaining attribute parameters corresponding to the identification of the target operator in the recorded information through the technological resource use condition visualization module;

analyzing attribute parameters corresponding to the identification of the target operator through the scientific and technological resource use condition visualization module, determining a first operator pointing to the target operator, a second operator pointing to the target operator and a cooperative task to which the target operator belongs, and constructing an operator relation diagram corresponding to the target operator.

Optionally, under the condition that the information to be queried is the target operator calling details, acquiring the record information stored by the subprocess record module according to the information to be queried, and processing the record information to obtain a visual result, where the method includes:

carrying out validity check on the identification of the target operator;

under the condition that verification is passed, inquiring a calling record corresponding to the identification of the target data in the record information through the technological resource use condition visualization module according to the identification of the target data;

analyzing the call record through the technological resource use condition visualization module, determining attribute information and call information of the target data, and constructing a call record table of the corresponding target data.

Optionally, in the case that the information to be queried is a collaborative task flow chart, the acquiring, according to the information to be queried, the record information stored by the sub-process record module, and processing the record information, to obtain a visual result includes:

carrying out validity check on the identification of the collaborative task;

under the condition that verification is passed, inquiring the identification of each operator included in the collaborative task in the recorded information through the scientific and technological resource use condition visualization module according to the identification of the collaborative task;

inquiring respective attribute parameters of each operator in the record information through the scientific and technological resource use condition visualization module according to the identification of each operator, and constructing a corresponding flow chart of the collaborative task.

Optionally, under the condition that the information to be queried is verification of the target data, acquiring record information stored by the subprocess record module according to the information to be queried, and processing the record information to obtain a visual result, where the method includes:

carrying out validity check on the identification of the target data;

under the condition that verification is passed, determining a block chain hash value corresponding to the identification through the technological resource use condition visualization module according to the identification of the target data, and acquiring the target data on a block chain based on the block chain hash value;

And comparing the target data on the blockchain with the target data in the corresponding local database through the technological resource use condition visualization module, and generating a visualization comparison result. Therefore, the cooperative process of the technological resources is recorded and tracked, and meanwhile, when a user inquires, the corresponding target data record information is counted and visually displayed.

The second aspect of the present invention provides a digital object relationship tracing system for technological resources, the system comprising:

the scientific and technological resource collaborative analysis platform is used for acquiring target data;

the identification registration module is used for carrying out identification registration on the target data, endowing the registered identification to a digital object corresponding to the target data, asynchronously uploading the target data to a blockchain for storage, and storing the identification of the target data, the hash value of the blockchain and the digital object corresponding to the target data into a local database;

the sub-process recording module is used for recording and storing the sub-process according to the execution operation of the user on the sub-process;

and the scientific and technological resource use condition visualization module is used for processing the record information corresponding to the query operation according to the query operation of the user to obtain a visualization result.

Aiming at the prior art, the invention has the following advantages:

the digital object relationship tracing method for the scientific and technological resources is applied to a scientific and technological resource collaborative analysis platform among scientific and technological institutions, and the scientific and technological resource collaborative analysis platform is used for analyzing and processing the scientific and technological resources and obtaining a corresponding scientific and technological resource collaborative process (namely a collaborative task). Calling an identification registration module to carry out identification registration on the obtained target data according to the obtained target data (comprising scientific resources and cooperative tasks), and endowing a registered identification to a digital object corresponding to the target data; asynchronously uploading target data to a blockchain for storage, and storing the identification of the target data, the hash value of the blockchain and a digital object corresponding to the target data to a local database so as to facilitate subsequent verification; according to the execution operation of a user on a subprocess (part of the cooperation process in the complete cooperation process of the technological resources), a subprocess recording module is called to record and store the subprocess; and according to the query operation of the user on the target data, invoking a technological resource use condition visualization module to process the record information corresponding to the query operation, and obtaining a visualization result. Therefore, the cooperative process of the technological resource is recorded and tracked, and meanwhile, when a user inquires, the recorded information of the corresponding target data is subjected to statistical analysis and visually displayed for the inquiring user.

The foregoing description is only an overview of the present invention, and is intended to be implemented in accordance with the teachings of the present invention in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present invention more readily apparent.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

FIG. 1 is a flowchart of a digital object relationship tracing method for science and technology resources according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of operators and collaborative tasks in a digital object relationship tracing method for science and technology resources according to an embodiment of the present invention;

FIG. 3 is a flowchart of identification registration in a digital object relationship tracing method for science and technology resources according to an embodiment of the present invention;

FIG. 4 is a flowchart of determining a sub-process record in a digital object relationship tracing method for technological resources according to an embodiment of the present invention;

FIG. 5 is a flowchart of determining a target operator relationship graph in a digital object relationship tracing method for science and technology resources according to an embodiment of the present invention;

Fig. 6 is a schematic diagram of a digital object relationship tracing system for technological resources according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings.

Fig. 1 is a flowchart of a digital object relationship tracing method for scientific resources, provided by an embodiment of the present invention, and as shown in fig. 1, the method is applied to a scientific resource collaborative analysis platform between scientific research institutions, and includes:

step S101: the target data is uploaded to a blockchain for storage asynchronously through the identification registration module, and the identification of the target data, the hash value of the blockchain and the digital object corresponding to the target data are stored in a local database;

step S102: according to the obtained target data, calling an identification registration module to carry out identification registration on the obtained target data, and endowing a registered identification to a digital object corresponding to the target data;

step S103: according to the execution operation of the user on the subprocess, calling a subprocess recording module to record and store the subprocess;

step S104: and according to the query operation of the user on the target data, invoking a technological resource use condition visualization module to process the record information corresponding to the query operation, and obtaining a visualization result.

In the embodiment of the invention, the record of the collaboration process of the technological resources is based on the digital object type abstracted by the cross-domain technological resource collaborative analysis platform and comprises an input operator, an algorithm operator, an output operator and a collaborative task. A complete collaboration process of technological resources belongs to collaborative tasks, one collaborative task corresponds to one directed acyclic graph, and nodes in the directed acyclic graph comprise input operators, algorithm operators and output operators, and each operator corresponds to one technological resource. As shown in fig. 2, fig. 2 shows a cooperative task, that is, a complete cooperation process of a technological resource, where D1, D2, A1, A2, and O1 in the drawing respectively represent a technological resource, the directed acyclic graph of fig. 2 composed of D1, D2, A1, A2, and O1 is a cooperative task T, and represents a complete cooperation process of a technological resource, where nodes D1 and D2 are input operators, nodes A1 and A2 are algorithm operators, and node O1 is an output operator. The cooperative task of the complete cooperative process of representing the technological resource belongs to one kind of data. Wherein, the science and technology resource is the sum of the software and hardware elements such as manpower, material resources, financial resources, organizations, management, information and the like which are engaged in the science and technology activities. With the development of technology, the cooperative use of scientific and technological resources among a plurality of scientific and research institutions is a trend. The cooperation process of the technological resources refers to that a plurality of scientific institutions jointly use the respective technological resources to jointly complete an item.

The scientific and technological resource collaborative analysis platform is used for analyzing the scientific and technological resources, the complete collaboration process of the scientific and technological resources can be obtained in the analysis process, the complete collaboration process of the scientific and technological resources is a collaborative task, and the scientific and technological resource collaborative analysis platform is used for recording and collaborative query visualization of the operation of the scientific and technological resources and the collaborative task.

Specifically, when the scientific and technological resource collaborative analysis platform obtains target data, an identification registration module is called to perform doid (Digital Object Identity document) identification registration on the obtained target data, a data object corresponding to the target data is created, and the registered identification is given to a digital object corresponding to the target data. Thus, identification registration and corresponding digital object creation can be performed for each scientific resource and each collaborative task. The target data comprises technological resources and cooperative tasks representing the complete cooperative process of the technological resources.

In the embodiment of the invention, after the identification registration of the target data and the creation of the corresponding digital object are successful, the target data is asynchronously uploaded to the blockchain for storage, and the identification of the target data and the corresponding blockchain hash value are used as an attribute of the digital object corresponding to the target data and stored in a local database so as to facilitate the follow-up verification processing of the target data.

When a user performs an operation on a subprocess of a cooperative task through a scientific and technological resource cooperative analysis platform, a subprocess recording module is called to record and store the subprocess of the user performing the operation, and the record and store the node included in the subprocess and the directed edge between the nodes form the subprocess. The subprocesses represent part of the cooperation process in the complete cooperation process of the technological resources. As shown in fig. 2, a node D1 in the graph points to a node A1, and a node A1 and a node D2 point to A2 to form a Sub-process Sub1, which belongs to a partial cooperation process of a technological resource in a directed acyclic graph, which is formed by D1, D2, A1, A2, and O1 and represents a complete cooperation process of the technological resource; node A2 in the figure points to node O1 to form Sub-process Sub2, belonging to the partial collaboration process of the technology resource in the directed acyclic graph, which is formed by D1, D2, A1, A2, O1 and represents one complete collaboration process of the technology resource.

When a user performs query operation of target data through the technical resource collaborative analysis platform, the technical resource collaborative analysis platform calls a technical resource use condition visualization module to process record information corresponding to the query operation, and a corresponding visualization result is obtained. For example, the user inputs the identifier through the technical resource collaborative analysis platform and selects the summary introduction of the technical resource which wants to inquire the identifier, at this time, the technical resource collaborative analysis platform will call the technical resource use condition visualization module to acquire the digital object corresponding to the identifier stored in the record based on the identifier, acquire the summary introduction of the technical resource corresponding to the identifier through the digital object, and generate the visualization result to return to the terminal where the user is located.

In an embodiment of the invention, the collaborative task is static and the collaborative process is a dynamic entity of the collaborative task. A cooperative task generates a corresponding cooperative process each time it is executed once, and how many times a cooperative task is executed generates a corresponding number of cooperative processes. If a cooperative task is executed 20 times, 20 cooperative processes are generated. All 20 co-processes need to be registered, each with a different identity. Therefore, when a user performs an operation on a collaborative task through a scientific and technological resource collaborative analysis platform, the identification registration module is called to perform doid (Digital Object Identity document) identification registration on collaborative process data corresponding to the performed collaborative task, a data object corresponding to the collaborative process is created, and the registered identification is given to a digital object corresponding to the collaborative process. And then, calling a subprocess recording module to record and store the collaborative process of the execution operation of the user, wherein the recorded and stored collaborative process comprises nodes and directed edges between the nodes, and the directed edges between the nodes in the collaborative process form the collaborative process. The collaborative process characterizes the execution of a corresponding collaborative task, including a complete collaborative process of technological resources.

The digital object relationship tracing method for the scientific and technological resources is applied to a scientific and technological resource collaborative analysis platform among scientific and technological institutions, and the scientific and technological resource collaborative analysis platform is used for analyzing and processing the scientific and technological resources and obtaining a corresponding scientific and technological resource collaborative process (namely a collaborative task). Calling an identification registration module to carry out identification registration on the obtained target data according to the obtained target data (comprising scientific resources and cooperative tasks), and endowing a registered identification to a digital object corresponding to the target data; according to the execution operation of a user on a subprocess (part of the cooperation process in the complete cooperation process of the technological resources), a subprocess recording module is called to record and store the subprocess; and according to the query operation of the user on the target data, invoking a technological resource use condition visualization module to process the record information corresponding to the query operation, and obtaining a visualization result. Therefore, the cooperative process of the technological resource is recorded and tracked, and meanwhile, when a user inquires, the recorded information of the corresponding target data is subjected to statistical analysis and visually displayed for the inquiring user.

In the invention, calling an identification registration module to carry out identification registration on the obtained target data and endowing registered identifications to digital objects corresponding to the target data, comprising the following steps: sending a first call request to the identification registration module; under the condition that the identification registration module receives the first call request, according to a received registration parameter request sent by the identification registration module, sending attribute parameters of the target data to the identification registration module; carrying out validity check on the attribute parameters of the received target data through the identification registration module; under the condition that verification is passed, calling an external service platform to perform identification registration on the target data through the identification registration module; assigning the registered identification to a digital object corresponding to the target data; and receiving feedback information sent by the identification registration module.

In an embodiment of the present invention, one implementation of step S101 is: after the technological resource collaborative analysis platform obtains the target data, a first call request is sent to the identification registration module, and after the identification registration module receives the call request, a registration parameter request is sent to the technological resource collaborative analysis platform to request various attribute parameters needed in the process of generating the digital object. After receiving the registration parameter request, the science and technology resource collaborative analysis platform sends various attribute parameters of target data which need to be subjected to identification registration and corresponding digital object generation to an identification registration module, wherein the various attribute parameters are used for generating the digital object corresponding to the target data.

After receiving each item of attribute parameters of the target data, the identification registration module performs validity check on each item of attribute parameters obtained, and determines whether the expression form of each item of attribute parameters is correct. For example, for an attribute parameter item such as a resource name (chinese), the parameter must not contain an english period, must not contain an exclamation mark, a question mark, etc.; for the attribute parameter item of resource name (English), the parameter must not contain Chinese symbols, such as exclamation mark, question mark, etc.; for the attribute parameter item of resource link, the character string is http:// or https://, and the total bit number is not more than 128 bits.

Under the condition that all attribute parameters of the target data pass verification, the identification registration module calls an external service platform to carry out identification registration on the target data, creates a digital object corresponding to the target data based on all attribute parameters of the target data, and then endows the digital object corresponding to the target data with the identification registered on the target data. And under the condition that the registration of the digital object of the target data is successful, locally storing the identification and the digital object which are registered based on the target data, and simultaneously sending feedback information of the successful registration to the science and technology resource collaborative analysis platform. Wherein, the external server platform is preferably a scientific and technological resource identification service platform.

In the embodiment of the invention, various attribute parameters of target data requested by the technical resource collaborative analysis platform by the identification registration module in the identification registration of the target data and the generation process of the digital object are shown in table 1.

The attribute parameters included in sciData for each item of attribute parameters are shown in table 2.

The attribute parameters included for the type in the various attribute parameters are shown in table 3.

The attribute parameters included in the edge among the attribute parameters are shown in table 4.

In the embodiment of the invention, the result parameters returned by the registration identification module to the scientific and technological resource collaborative analysis platform in the process of registering the target data are shown in table 5, and when the code is 0, the registration is successful. When the code is other, the msg describes the reason for the registration failure.

In an embodiment of the present invention, as shown in fig. 3, fig. 3 shows an identification registration flowchart. The identification registration module performs validity check on attribute parameters of the target data to be subjected to identification registration. When the verification is not passed, returning error information with unqualified attribute parameters to the scientific and technological resource collaborative analysis platform, and ending the identification registration of the target data; and when the verification is passed, calling an identification analysis system of the external service platform to carry out identification registration and corresponding digital object creation on the target data. Under the condition that the external service platform does not successfully complete the identification registration of the target data and/or the creation of the corresponding digital object, returning error information of failed identification registration to the science and technology resource collaborative analysis platform, and ending the identification registration of the target data; under the condition that the external service platform successfully completes the identification registration of the target data and the creation of the corresponding digital object, the registered identification is endowed to the digital object corresponding to the created target data, and the block chain uplink processing is carried out on the target data. Under the condition of block chain uplink failure, returning error information of target data uplink failure to the scientific and technological resource collaborative analysis platform, and ending the identification registration of the target data; under the condition that the block chain is successfully uplink, the target data, the digital object and the mark corresponding to the target data and the hash value of the corresponding block chain are stored in a local database, and the science and technology resource collaborative analysis platform is used for carrying out the method

And returning the identification corresponding to the target data which is successfully registered.

In the present invention, the invoking a sub-process recording module to record and store a sub-process according to the execution operation of the user on the sub-process includes: sending a second call request to the sub-process recording module according to the execution operation of the user on the sub-process; analyzing the received second call request through the sub-process recording module, and determining attribute information of the sub-process in the second call request; carrying out validity check on attribute information of the subprocess through the subprocess recording module; under the condition that the verification is passed, recording and storing the subprocesses through the subprocess recording module; and receiving feedback information sent by the subprocess recording module.

In the embodiment of the invention, when the user executes the sub-process through the technical resource collaborative analysis platform, the technical resource collaborative analysis platform sends a second call request to the sub-process recording module, wherein the second call request comprises the related attribute information of the sub-process executed by the user. The related attribute information of the sub-process includes the nodes included in the sub-process and the directed edges between the nodes, and the directed edges between the nodes included in the sub-process form the sub-process.

And after receiving the second call request, the sub-process recording module analyzes the second call request to obtain attribute information of the sub-process executed by the user in the second call request. And then the sub-process recording module performs validity check on the obtained attribute information of the sub-process. And under the condition that the verification is passed, recording and storing the current sub-process executed by the user through a sub-process recording module. And returning a corresponding recording result to the scientific and technological resource collaborative analysis platform.

In an embodiment of the present invention, the attribute information included in the sub-process is shown in table 6 below.

In the embodiment of the invention, according to the recording result of the sub-process recording module, the recording result parameters returned by the sub-process recording module to the scientific and technological resource collaborative analysis platform are shown in table 7. Wherein, a code of 0 indicates successful recording and a code of 1 indicates recording error.

In an embodiment of the present invention, as shown in fig. 4, fig. 4 shows a sub-process recording flowchart. And the sub-process recording module performs parameter validity verification of attribute information of the sub-process. Returning error information of unqualified parameter verification to the scientific and technological resource collaborative analysis platform under the condition of unqualified verification, and ending the record of the subprocess; and under the condition of qualified verification, recording each operator and the directed edges among the operators included in the subprocess through a subprocess recording module. Under the condition that the recording is unsuccessful, returning error information of recording failure to the science and technology resource collaborative analysis platform, and ending the recording of the subprocess; and under the condition of successful recording, returning information of successful recording to the science and technology resource collaborative analysis platform, and ending the recording of the subprocess.

In the invention, according to the query operation of a user on target data, a technology resource use condition visualization module is called to process the record information corresponding to the query operation to obtain a visualization result, which comprises the following steps: according to the query operation of the user, a third call request is sent to the technological resource use condition visualization module; analyzing the received third call request through the scientific and technological resource use condition visualization module to determine data information to be queried; and acquiring the record information stored by the subprocess record module according to the information to be queried, and processing the record information to obtain a visual result.

In the embodiment of the invention, when the user performs query operation on the technical resources or the subprocesses through the technical resource collaborative analysis platform, a third call request is sent to the technical resource use condition visualization module according to the query operation of the user. And the technological resource use condition visualization module analyzes the received third call request to determine the query requirement of the user, namely the data information to be queried, such as the execution times of the user wanting to query the subprocess A in the time period a. According to the data information to be queried obtained through analysis, the technological resource use condition visualization module obtains the record information recorded by the subprocess recording module from the local database, processes the record information based on the data information to be queried, obtains the record information related to the data information to be queried, generates a visualization result based on the obtained record information, returns the visualization result to the terminal where the user is located for displaying, so that the user can query the execution condition of the user on each technological resource and each subprocess through the technological resource collaborative analysis platform, and displays the visualized result to the user.

In the present invention, in the case that the information to be queried is a target operator relationship diagram, the acquiring, according to the information to be queried, the record information stored by the sub-process record module, and processing the record information, to obtain a visual result, includes: carrying out validity check on the identification of the target operator; under the condition that verification is passed, obtaining attribute parameters corresponding to the identification of the target operator in the recorded information through the technological resource use condition visualization module; analyzing attribute parameters corresponding to the identification of the target operator through the scientific and technological resource use condition visualization module, determining a first operator pointing to the target operator, a second operator pointing to the target operator and a cooperative task to which the target operator belongs, and constructing an operator relation diagram corresponding to the target operator.

In the embodiment of the invention, the target operator represents an operator which the user wants to query, and the operator can be an input operator in a collaborative task, an algorithm operator or an output operator. And the technological resource use condition visualization module analyzes the received third call request, and performs validity check on the identification of the target operator in the information to be queried under the condition that the information of the data to be queried is determined to be the target operator relation diagram. And under the condition that the verification is passed, acquiring attribute parameters corresponding to the identification of the target operator in the record information stored in the local database through a scientific and technological resource use condition visualization module. Analyzing attribute parameters corresponding to the identification of the target operator through the scientific and technological resource use condition visualization module, and determining a first operator pointing to the target operator which the user wants to inquire, a second operator pointing to the target operator which the user wants to inquire, and a collaborative task to which the target operator which the user wants to inquire belongs. Based on the determined data, an operator relation diagram of the target operator which the user wants to inquire is constructed, and the operator relation diagram of the visualized target operator is returned to the terminal where the user is located. In this embodiment, the data information to be queried includes at least a data identifier doid corresponding to the target operator.

In the embodiment of the invention, parameter information returned by the technology resource usage visualization module is shown in table 8.

The node parameters of each node in table 8 include parameter information as shown in table 9.

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The parameter information included in the links parameter in table 8 is shown in table 10.

In an embodiment of the present invention, as shown in fig. 5, fig. 5 shows a flowchart of a target operator relationship diagram. And the scientific and technological resource use condition visualization module performs validity check on the identification of the target operator in the information to be queried. Returning error information of failure in parameter verification to the scientific and technological resource collaborative analysis platform under the condition that the parameter verification is not passed, and ending the query of the target operator relationship graph; and under the condition that verification is passed, acquiring attribute parameters corresponding to the identification of the target operator in the record information stored in the local database through a scientific and technological resource use condition visualization module according to the identification of the target operator. Searching a second operator pointed by the target operator through 'from' =doid, searching a first operator pointed by the target operator through 'from' =doid after the searching is successful, generating a visual result of a relation diagram of the target operator based on the searched related data information after the searching is successful, and returning the generated visual result to a terminal where a user is located. And under the condition that any one operator in the first operator and the second operator is not successfully searched, returning error information of searching failure to the scientific and technological resource collaborative analysis platform, and ending the query of the target operator relationship graph.

In the present invention, under the condition that the information to be queried is the calling details of the target operator, the method for acquiring the record information stored by the subprocess record module according to the information to be queried, and processing the record information to obtain the visual result includes: carrying out validity check on the identification of the target operator; under the condition that verification is passed, inquiring a calling record corresponding to the identification of the target data in the record information through the technological resource use condition visualization module according to the identification of the target data; analyzing the call record through the technological resource use condition visualization module, determining attribute information and call information of the target data, and constructing a call record table of the corresponding target data.

In the embodiment of the invention, the scientific and technological resource use condition visualization module analyzes the received third call request, and performs validity check on the identification of the target operator in the information to be queried under the condition that the data information to be queried is determined to be the target operator call details. And under the condition that the verification is passed, acquiring a calling record corresponding to the identification of the target operator in record information stored in a local database through a scientific and technological resource use condition visualization module. Analyzing the call records corresponding to the identifications of the target operators through the scientific and technological resource use condition visualization module, and determining attribute information and call information of the target operators to be queried. And constructing a call record table of the target operator which the user wants to inquire based on the determined data, and returning the call record table of the visualized target operator to the terminal where the user is located.

In an embodiment of the present invention, parameters requested by the technology resource usage visualization module from the local database are shown in table 11.

In an embodiment of the present invention, parameters returned by the local database to the technology resource usage visualization module are shown in table 12.

In an embodiment of the present invention, the recordNode type parameters include parameters as shown in table 13.

In the present invention, in the case that the information to be queried is a collaborative task flow chart, the obtaining, according to the information to be queried, the record information stored by the sub-process record module, and processing the record information, to obtain a visual result includes: carrying out validity check on the identification of the collaborative task; under the condition that verification is passed, inquiring the identification of each operator included in the collaborative task in the recorded information through the scientific and technological resource use condition visualization module according to the identification of the collaborative task; inquiring respective attribute parameters of each operator in the record information through the scientific and technological resource use condition visualization module according to the identification of each operator, and constructing a corresponding flow chart of the collaborative task.

In the embodiment of the invention, the scientific and technological resource use condition visualization module analyzes the received third call request to determine that the identification of the collaborative task in the information to be queried is legality verification under the condition that the information of the data to be queried is the collaborative task flow chart. And under the condition that verification is passed, obtaining the identification of each operator included in the collaborative task in the record information stored in the local database through a scientific and technological resource use condition visualization module. And inquiring attribute information of each operator included in the collaborative task in the record information through a scientific and technological resource use condition visualization module according to the identification of each operator. Based on the queried attribute information of each operator included in the collaborative task, constructing a collaborative task flow chart which is wanted to be queried by the user, and returning the visualized collaborative task flow chart to the terminal where the user is located.

In the embodiment of the present invention, in the case that the information to be queried is a collaborative task flow chart, the implementation process is similar to the information to be queried is the collaborative task flow chart, and will not be described herein.

In an embodiment of the present invention, the parameters returned by the local database to the technology resource usage visualization module are shown in table 14.

In an embodiment of the present invention, the parameters included for the op type parameter are shown in Table 15.

In the present invention, when the information to be queried is verification of target data, the acquiring record information stored by the sub-process record module according to the information to be queried, and processing the record information to obtain a visual result includes: carrying out validity check on the identification of the target data; under the condition that verification is passed, determining a block chain hash value corresponding to the identification through the technological resource use condition visualization module according to the identification of the target data, and acquiring the target data on a block chain based on the block chain hash value; and comparing the target data on the blockchain with the target data in the corresponding local database through the technological resource use condition visualization module, and generating a visualization comparison result.

In the embodiment of the invention, the technological resource use condition visualization module analyzes the received third call request to determine that the identification of the target data in the data to be queried is legality verification under the condition that the data to be queried is verified. And under the condition that verification is passed, determining a block chain hash value corresponding to the identification of the target data through a technology resource use condition visualization module according to the identification of the target data, and inquiring and acquiring the target data on the block chain based on the block chain hash value. Comparing the acquired target data on the block chain with the target data in the local database acquired based on the identification of the target data through the technology resource use condition visualization module, determining whether the target data in the local database is true and correct data, and generating a corresponding visualization comparison result to return to the terminal where the user is located for visualization display.

A second aspect of the present invention provides a digital object relationship tracing system for technological resources, as shown in fig. 6, the system 600 includes:

the science and technology resource collaborative analysis platform 601 is used for acquiring target data;

The identifier registration module 602 is configured to perform identifier registration on the target data, assign a registered identifier to a digital object corresponding to the target data, asynchronously upload the target data to a blockchain for storage, and store the identifier of the target data, a hash value of the blockchain, and the digital object corresponding to the target data in a local database;

a sub-process recording module 603, configured to record and store a sub-process according to an execution operation of the sub-process by a user;

and the technological resource use condition visualization module 604 is used for processing the record information corresponding to the query operation according to the query operation of the user to obtain a visualization result.

Optionally, the identification registration module 602 includes:

the first call request sending module is used for sending a first call request to the identification registration module;

the attribute parameter sending module is used for sending attribute parameters of the target data to the identification registering module according to the received registration parameter request sent by the identification registering module under the condition that the identification registering module receives the first calling request;

the first validity checking module is used for carrying out validity checking on the received attribute parameters of the target data through the identification registering module;

The mark booklet filling module is used for calling an external service platform to carry out mark registration on the target data through the mark registration module under the condition that verification is passed;

an identification giving module for giving the registered identification to the digital object corresponding to the target data;

the first receiving module is used for receiving the feedback information sent by the identification registering module.

Optionally, the sub-process recording module 603 includes:

the second call request sending module is used for sending a second call request to the subprocess recording module according to the execution operation of the subprocess by the user;

the attribute information determining module is used for analyzing the received second call request through the sub-process recording module and determining attribute information of the sub-process in the second call request;

the second validity checking module is used for carrying out validity checking on the attribute information of the subprocess through the subprocess recording module;

the record storage module is used for recording and storing the subprocesses through the subprocess recording module under the condition that the verification is passed;

and the second receiving module is used for receiving the feedback information sent by the subprocess recording module.

Optionally, the technology resource usage visualization module 604 includes:

the third call request sending module is used for sending a third call request to the technological resource use condition visualization module according to the query operation of the user;

the to-be-queried data information determining module is used for analyzing the received third call request through the technological resource use condition visualization module to determine to-be-queried data information;

and the data use condition visualization submodule is used for acquiring the record information stored by the subprocess record module according to the information to be queried, and processing the record information to obtain a visualization result.

Optionally, the data usage visualization submodule includes:

the third validity checking module is used for checking the validity of the identification of the target operator;

the attribute parameter acquisition module is used for acquiring attribute parameters corresponding to the identification of the target operator in the record information through the technological resource use condition visualization module under the condition that verification is passed;

the operator relation diagram construction module is used for analyzing attribute parameters corresponding to the identification of the target operator through the scientific and technological resource use condition visualization module, determining a first operator pointing to the target operator, a second operator pointing to the target operator and a cooperative task to which the target operator belongs, and constructing an operator relation diagram corresponding to the target operator.

Optionally, the data usage visualization submodule includes:

a fourth validity checking module, configured to perform validity checking on the identifier of the target operator;

the calling record acquisition module is used for inquiring a calling record corresponding to the identification of the target data in the record information through the technological resource service condition visualization module according to the identification of the target data under the condition that verification is passed;

and the call record table construction module is used for analyzing the call record through the scientific and technological resource use condition visualization module, determining attribute information and call information of the target data and constructing a call record table of the corresponding target data.

Optionally, the data usage visualization submodule includes:

a fifth validity checking module, configured to perform validity checking on the identifier of the cooperative task;

the operator identification acquisition module is used for inquiring the identification of each operator included in the collaborative task in the record information through the scientific and technological resource service condition visualization module according to the identification of the collaborative task under the condition that the verification is passed;

inquiring respective attribute parameters of each operator in the record information through the scientific and technological resource use condition visualization module according to the identification of each operator, and constructing a corresponding flow chart of the collaborative task.

Optionally, the data usage visualization submodule includes:

a sixth validity checking module, configured to perform validity checking on the identifier of the target data;

the target data acquisition module is used for determining a block chain hash value corresponding to the identification through the technological resource service condition visualization module according to the identification of the target data under the condition that verification is passed, and acquiring target data on a block chain based on the block chain hash value;

and the visual comparison result generation module is used for comparing the target data on the block chain with the target data in the corresponding local database through the technological resource use condition visual module and generating a visual comparison result.

In the above embodiments, it may be implemented in whole or in part by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, produces a flow or function in accordance with embodiments of the present invention, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable apparatus. The computer instructions may be stored in or transmitted from one computer-readable storage medium to another, for example, by wired (e.g., coaxial cable, optical fiber, digital Subscriber Line (DSL)), or wireless (e.g., infrared, wireless, microwave, etc.). The computer readable storage medium may be any available medium that can be accessed by a computer or a data storage device such as a server, data center, etc. that contains an integration of one or more available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., solid State Disk (SSD)), etc.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

In this specification, each embodiment is described in a related manner, and identical and similar parts of each embodiment are all referred to each other, and each embodiment mainly describes differences from other embodiments. In particular, for system embodiments, since they are substantially similar to method embodiments, the description is relatively simple, as relevant to see a section of the description of method embodiments.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention are included in the protection scope of the present invention.

Claims (9)

1. A digital object relation tracing method facing scientific and technological resources is characterized by being applied to a scientific and technological resource collaborative analysis platform among scientific and technological institutions, and comprises the following steps:

according to the obtained target data, calling an identification registration module to carry out identification registration on the obtained target data, and endowing a registered identification to a digital object corresponding to the target data;

the target data is uploaded to a blockchain for storage asynchronously through the identification registration module, and the identification of the target data, the hash value of the blockchain and the digital object corresponding to the target data are stored in a local database;

according to the execution operation of the user on the subprocess, calling a subprocess recording module to record and store the subprocess;

and according to the query operation of the user on the target data, invoking a technological resource use condition visualization module to process the record information corresponding to the query operation, and obtaining a visualization result.

2. The digital object relationship tracing method for technological resources according to claim 1, wherein invoking an identification registration module to perform identification registration on the obtained target data and endowing the registered identification to the digital object corresponding to the target data comprises:

sending a first call request to the identification registration module;

under the condition that the first calling request is received by the identification registration module, according to the received registration parameter request sent by the identification registration module, sending attribute parameters of the target data to the identification registration module;

carrying out validity check on the attribute parameters of the received target data through the identification registration module;

under the condition that verification is passed, calling an external service platform to perform identification registration on the target data through the identification registration module;

assigning the registered identification to a digital object corresponding to the target data;

and receiving feedback information sent by the identification registration module.

3. The digital object relation tracing method for technological resources according to claim 1, wherein the calling the sub-process recording module to record and store the sub-process according to the execution operation of the user on the sub-process comprises:

Sending a second call request to the sub-process recording module according to the execution operation of the user on the sub-process;

analyzing the received second call request through the sub-process recording module, and determining attribute information of the sub-process in the second call request;

carrying out validity check on attribute information of the subprocess through the subprocess recording module;

under the condition that the verification is passed, recording and storing the subprocesses through the subprocess recording module;

and receiving feedback information sent by the subprocess recording module.

4. The digital object relation tracing method for technological resources according to claim 1, wherein the step of calling a technological resource use condition visualization module to process the record information corresponding to the query operation according to the query operation of the user on the target data to obtain the visualization result comprises the following steps:

according to the query operation of the user, a third call request is sent to the technological resource use condition visualization module;

analyzing the received third call request through the scientific and technological resource use condition visualization module to determine data information to be queried;

And acquiring the record information stored by the subprocess record module according to the information to be queried, and processing the record information to obtain a visual result.

5. The digital object relationship tracing method for technological resources according to claim 4, wherein, in the case that the information to be queried is a target operator relationship graph, the obtaining, according to the information to be queried, the record information stored by the sub-process record module, and processing the record information, to obtain a visual result, includes:

carrying out validity check on the identification of the target operator;

under the condition that verification is passed, obtaining attribute parameters corresponding to the identification of the target operator in the recorded information through the technological resource use condition visualization module;

analyzing attribute parameters corresponding to the identification of the target operator through the scientific and technological resource use condition visualization module, determining a first operator pointing to the target operator, a second operator pointing to the target operator and a cooperative task to which the target operator belongs, and constructing an operator relation diagram corresponding to the target operator.

6. The digital object relationship tracing method for technological resources according to claim 4, wherein, in the case that the information to be queried is the target operator call details, the acquiring the record information stored by the sub-process record module according to the information to be queried, and processing the record information to obtain the visual result, includes:

Carrying out validity check on the identification of the target operator;

under the condition that verification is passed, inquiring a calling record corresponding to the identification of the target data in the record information through the technological resource use condition visualization module according to the identification of the target data;

analyzing the call record through the technological resource use condition visualization module, determining attribute information and call information of the target data, and constructing a call record table of the corresponding target data.

7. The digital object relationship tracing method for technological resources according to claim 4, wherein, in the case that the information to be queried is a collaborative task flow chart, the obtaining the record information stored by the sub-process record module according to the information to be queried, and processing the record information to obtain a visual result includes:

carrying out validity check on the identification of the collaborative task;

under the condition that verification is passed, inquiring the identification of each operator included in the collaborative task in the recorded information through the scientific and technological resource use condition visualization module according to the identification of the collaborative task;

Inquiring respective attribute parameters of each operator in the record information through the scientific and technological resource use condition visualization module according to the identification of each operator, and constructing a corresponding flow chart of the collaborative task.

8. The digital object relationship tracing method for technological resources according to claim 4, wherein, in the case that the information to be queried is verification of target data, the obtaining, according to the information to be queried, the record information stored by the sub-process record module, and processing the record information, to obtain a visual result, includes:

carrying out validity check on the identification of the target data;

under the condition that verification is passed, determining a block chain hash value corresponding to the identification through the technological resource use condition visualization module according to the identification of the target data, and acquiring the target data on a block chain based on the block chain hash value;

and comparing the target data on the blockchain with the target data in the corresponding local database through the technological resource use condition visualization module, and generating a visualization comparison result.

9. A digital object relationship traceability system oriented to scientific resources, the system comprising:

The scientific and technological resource collaborative analysis platform is used for acquiring target data;

the identification registration module is used for carrying out identification registration on the target data, endowing the registered identification to a digital object corresponding to the target data, asynchronously uploading the target data to a blockchain for storage, and storing the identification of the target data, the hash value of the blockchain and the digital object corresponding to the target data into a local database;

the sub-process recording module is used for recording and storing the sub-process according to the execution operation of the user on the sub-process;

and the scientific and technological resource use condition visualization module is used for processing the record information corresponding to the query operation according to the query operation of the user to obtain a visualization result.