CN113822685B - Evidence storage method, processor and device for cultural relic exhibition circulation based on block chain - Google Patents

Abstract

The invention relates to the field of block chains, in particular to a evidence storing method, a processor, an evidence storing device and a storage medium for cultural relic exhibition and circulation based on a block chain. The method comprises the following steps: acquiring basic information of a museum and an exhibition and display mechanism, and storing the basic information into a block chain; respectively determining each museum and exhibition and display organization as nodes of a block chain to form a alliance chain; constructing intelligent contracts of the alliance chain; uploading the gene information of the cultural relics to a alliance chain, and after registering the gene information to an intelligent contract, generating a cultural relic identifier corresponding to each cultural relic through the intelligent contract; and submitting the genetic information to a alliance chain in a transaction mode so as to realize the sharing of the genetic information through the block chain. By the technical scheme, the establishment of the alliance chain can enable the information of the cultural relics to be shared in real time, and the cultural relics are monitored and tracked in the research, repair and exhibition processes through the block chain, so that the safety of the exhibition and circulation of the cultural relics and the collections is ensured.

Description

Evidence storage method, processor and device for cultural relic exhibition circulation based on block chain

Technical Field

The invention relates to the field of block chains, in particular to a evidence storing method, a processor, an evidence storing device and a storage medium for cultural relic exhibition and circulation based on a block chain.

Background

Blockchains are a term of art in information technology. In essence, the system is a shared database, and the data or information stored in the shared database has the characteristics of 'unforgeability', 'whole-course trace', 'traceability', 'public transparency', 'collective maintenance', and the like.

The cultural relics are relics and traces left by human beings in the historical development process. The social activities, social relations and consciousness forms of human beings in various historical periods and the conditions of utilizing nature, reforming nature and the ecological environment at that time are reflected by various cultural relics from different sides, and the cultural heritage is a precious historical cultural heritage of the human beings. The excavation, repair, preservation, display and circulation of the cultural relics are indispensable links of each unearthed cultural relic. Due to the collection value of the cultural relics, the problems of loss, damage, counterfeiting and the like of the cultural relics can exist in the processes of repairing, storing, displaying and circulating the cultural relics.

In the traditional method, in the process of circulating the cultural relics, too many mechanisms or personnel are involved, once the cultural relics are forged, lost, stolen and the like, it is difficult to adopt effective means to prove the ownership of the cultural relics in the process of circulating the cultural relics, and it is difficult to trace the cultural relics with the problems.

Disclosure of Invention

The invention aims to solve the problem that the evidences are difficult to pursue in the process of exhibition and circulation of the cultural relics in the prior art, and provides a evidence storage method, a processor, an evidence storage device and a storage medium for exhibition and circulation of the cultural relics based on a block chain.

In order to achieve the above object, the present invention provides a cultural relic exhibition circulation evidence storage method based on a block chain, which comprises the following steps:

acquiring basic information of a museum and an exhibition and display mechanism, and storing the basic information into a block chain;

respectively determining each museum and exhibition and display organization as nodes of a block chain to form a alliance chain;

constructing intelligent contracts of the alliance chain;

uploading the gene information of the cultural relics to a alliance chain, and after registering the gene information to an intelligent contract, generating a cultural relic identifier corresponding to each cultural relic through the intelligent contract;

and submitting the genetic information to a alliance chain in a transaction mode so as to realize the sharing of the genetic information through the block chain.

In the embodiment of the application, cultural relic research data corresponding to the gene information and uploaded by a cultural relic identifier is obtained, the cultural relic research data is uploaded after the cultural relic identifier obtains the gene information through a alliance chain and researches the cultural relics of an entity, and the cultural relic research data comprises identification data of the cultural relics corresponding to the gene information.

In the embodiment of the application, when the exhibition address of the cultural relic is changed, the museum or exhibition organization which exhibits the cultural relic updates the basic information of the cultural relic through the alliance chain so as to update the circulation information of the cultural relic.

In the embodiment of the application, a cultural relic repair comparison contract of a federation chain is constructed; acquiring cultural relic repair data uploaded by a cultural relic repairer, wherein the cultural relic repair data comprises repair details and repair modes aiming at the cultural relics; and after the restoration of the cultural relics is completed, updating the genetic information of the cultural relics in the alliance chain through the cultural relic restoration data.

In the embodiment of the application, in the cultural relic point crossing process, the gene information of the cultural relic is obtained from the alliance chain and is shared gene information; matching the shared gene information with the entity gene information of the cultural relic, wherein the entity gene information is obtained by carrying out gene extraction on the cultural relic of the entity; and uploading the intersection point information of the cultural relics to the alliance chain under the condition that the entity gene information and the shared gene information are successfully matched.

In the embodiment of the application, under the condition that the matching of the entity gene information and the shared gene information fails, a cultural relic identifier of the cultural relic is obtained; searching circulation information corresponding to the cultural relic identification, point intersection nodes where the cultural relic passes, and gene information and operation information corresponding to each point intersection node through the alliance chain; and verifying the operation information of the cultural relic at each intersection node through the circulation information and the genetic information of the cultural relic so as to trace the source of the matching failure of the entity genetic information and the shared genetic information.

In the embodiment of the application, the nodes on the alliance chain further comprise any one or more of a gene collector, a cultural relic identifier, a cultural relic evaluator, a cultural relic maintenance person and a cultural relic repairer of the cultural relic of the museum.

A second aspect of the present application provides a processor configured to perform the evidence storing method for circulation of the block chain-based cultural relics exhibition in any of the above embodiments.

The third aspect of the application provides a evidence storage device for cultural relic exhibition circulation based on a block chain, which comprises the processor provided by the second aspect of the application.

A fourth aspect of the present application provides a storage medium, where the machine-readable storage medium stores instructions, and the instructions, when executed by the processor, cause the processor to execute the evidence storage method for displaying and circulating the cultural relics based on the block chain in any one of the above embodiments.

Through the technical scheme, the museum and the exhibition and display institution which are involved in the circulation process of the cultural relic are determined as the nodes of the block chain to form the alliance chain, and the intelligent contract of the alliance chain is constructed. And uploading the genetic information of the cultural relics to the alliance chain, determining the cultural relic identification corresponding to each cultural relic in the alliance chain, and sharing the cultural relic information through the block chain when the cultural relics circulate in the enterprises in the alliance. In the technical scheme, the enterprises which determine the nodes to become the block chains can construct the alliance chains, the establishment of the alliance chains can enable the information of the cultural relics to be shared in real time, the cultural relics are monitored and tracked in the research, repair and exhibition processes through the block chains, and the safety of the circulation of the cultural relics collection in exhibition and exhibition is guaranteed.

Drawings

Fig. 1 is a schematic flow chart illustrating a evidence storing method for circulation of a cultural relic exhibition based on a block chain according to an embodiment of the present application;

fig. 2 schematically shows an internal structure diagram of a computer device according to an embodiment of the present application.

Detailed Description

The following detailed description of embodiments of the present application will be made with reference to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present application, are given by way of illustration and explanation only, and are not intended to limit the present application.

It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are referred to in the embodiments of the present application, the directional indications are only used to explain the relative positional relationship between the components, the movement situation, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present application, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present application.

As shown in fig. 1, which schematically illustrates a flow chart of a evidence storing method for circulation of a block chain-based cultural relic exhibition, according to an embodiment of the present application, as shown in fig. 1, in the embodiment of the present application, there is provided a evidence storing method for circulation of a block chain-based cultural relic exhibition, including the following steps:

step 101, acquiring basic information of the museum and the exhibition and display mechanism, and storing the basic information into a block chain.

And 102, respectively determining each museum and exhibition organization as nodes of the block chain to form a alliance chain.

The processor may obtain basic information of a museum where the cultural relic is located or an exhibition organization where the exhibition is performed. For example, official registration information of museums and exhibition institutions. After obtaining the basic information, the processor stores the basic information into the block chain. The processor can respectively determine museums and exhibition institutions related to the circulation of the cultural relics as nodes of the block chain, and each museum and each exhibition institution are taken as one node in the block chain, so that a federation chain for protecting the cultural relics is formed. And each node mechanism can participate in maintaining the shared common data in the blockchain, and the node mechanisms in each alliance chain can read the cultural relic shared database and perform maintenance and update on the data.

In one embodiment, the nodes on the federation chain further comprise any one or more of a gene collector, a cultural relic identifier, a cultural relic evaluator, a cultural relic maintainer, and a cultural relic restorer of the museum cultural relic.

Besides the nodes on the alliance chain are composed of cultural relic related organizations, as cultural relic workers can also change the information of the cultural relic, the cultural relic workers in the museum can also join as the nodes, or join as basic information into the node information of the block chain, for example, cultural relic gene collectors, cultural relic appraisers, cultural relic evaluators, cultural relic maintainers, cultural relic repairers and other cultural relic related workers can join as the nodes into the alliance chain, or join as the basic information of the nodes into the alliance chain along with the node organizations. Because the information which is used as the node or is used as the basic information of some nodes is added into the alliance chain, the information of the cultural relics shared in the alliance chain can be supplemented, and the diversified and safe propagation of the cultural relic collection is promoted.

And 103, constructing an intelligent contract of the alliance chain.

And 104, uploading the gene information of the cultural relics to the alliance chain, and after registering the gene information to the intelligent contract, generating a cultural relic identifier corresponding to each cultural relic through the intelligent contract.

And step 105, submitting the genetic information to a alliance chain in a trading mode so as to realize the sharing of the genetic information through a block chain.

The intelligent contracts of the alliance chain can comprise intelligent contracts for developing cultural relic gene data retention, cultural relic research identification contracts, cultural relic exhibition circulation contracts and cultural relic repair comparison contracts. The processor can determine the genetic information of each cultural relic and upload the genetic information of each cultural relic to the alliance chain, and after the genetic information of each cultural relic is registered to the intelligent contract, the processor can generate a unique identifier corresponding to the cultural relic through the intelligent contract. The processor can submit the genetic information of the cultural relic to the alliance chain in a transaction mode, and the node mechanisms in the alliance chain can share the genetic information of the cultural relic in a block chain mode, wherein the transaction mode means that the genetic submission process and the submitted data can be recorded in an account book mode when the genetic information is submitted, so that the phenomenon that the data is maliciously tampered is avoided.

When the cultural relic gene data retention intelligent contract is constructed, the processor can acquire the gene information of each cultural relic registered by the cultural relic registrant, register the gene information of each cultural relic in the intelligent contract, generate a corresponding unique identifier for each cultural relic according to the gene information, and submit the generated unique identifier of the cultural relic to the block chain. At this time, all node members in the alliance chain can acquire the gene information and the cultural relic identification of the cultural relic through the cultural relic gene data retention contract, and the cultural relic information related to the cultural relic in the unique identification sharing block chain corresponding to the cultural relic can be obtained according to the cultural relic gene data retention contract.

The processor may also construct a cultural relic identification intelligent contract for an identification study of the cultural relic. The cultural meaning behind each cultural relic can be researched by the cultural relic appraiser through the gene record information and the cultural relic entity of the cultural relic, for example, the cultural meaning behind each cultural relic can be determined by the expert through the appraisal of the cultural relic. The processor can upload the cultural meaning of the cultural relic to a cultural relic research and identification contract after acquiring the cultural meaning of the cultural relic determined by the cultural relic identifier, and the processor can correspond the cultural meaning of the cultural relic to the cultural relic identifier for identifying the cultural relic. Each participating node authority in the federation chain can view the cultural meaning behind the cultural thing in real time through the cultural-research appraisal contract and can view an appraiser who appraises the cultural meaning. The identification information of the cultural relic by the cultural relic identifier can also be determined by looking at the cultural relic identifier.

In one embodiment, cultural relic research data uploaded by a cultural relic identifier and corresponding to the genetic information is obtained, the cultural relic research data is uploaded by the cultural relic identifier after research is performed on the cultural relics of the entity after the genetic information is obtained through the alliance chain, and the cultural relic research data comprises identification data of the cultural relics corresponding to the genetic information.

Because the federation chain can enable the node organization to share the gene information of the cultural relic, the cultural relic identifier can acquire the gene information of each cultural relic and the unique cultural relic identifier corresponding to the unique gene information of each cultural relic through the federation chain, and after the cultural relic identifier acquires the unique cultural relic identifier, the cultural relic entity corresponding to the cultural relic identifier can be identified and researched to determine the research identification data of the cultural relic, such as the cultural meaning behind the cultural relic. After the cultural relic research identification data corresponding to the cultural relic entity is determined, the cultural relic identifier can upload the cultural relic research identification data and correspond the cultural relic research identification data to the cultural relic identification of the cultural relic entity, so that the cultural relic research identification data can correspond to the unique cultural relic identification of the identified cultural relic one by one. Therefore, node organizations included in the alliance chain can acquire cultural relic gene information and cultural relic research identification data corresponding to the cultural relics through the cultural relic identification of the cultural relics.

The processor can also construct a cultural relic exhibition and circulation contract aiming at the exhibition and the circulation of the cultural relics, when the cultural relics are exhibited or circulated in different museums or exhibition and circulation mechanisms, the processor can acquire circulation information of the cultural relics each time, upload the circulation information to the cultural relic exhibition and circulation contract, and correspond the circulation information of the cultural relics to the unique cultural relic identification of the cultural relics. Each node mechanism participating in the alliance chain can share circulation information of the cultural relic through the cultural relic exhibition circulation contract.

In one embodiment, in the case that the exhibition address of the cultural relic is changed, the museum or exhibition organization which exhibits the cultural relic updates the basic information of the cultural relic through the alliance chain so as to realize the updating of the circulation information of the cultural relic.

In the process of displaying and displaying the cultural relics, the addresses of the displaying and displaying change, the museum or the displaying and displaying mechanism which is responsible for displaying and displaying the cultural relics can update the specific displaying and displaying information of the cultural relics through the block chain, and the circulation information of the cultural relics corresponds to the unique cultural relic identification of the cultural relics. Therefore, the circulation information of the cultural relics is updated. For example, if a cultural relic is displayed in the library a at this time, the library a may input an address corresponding to the display of the cultural relic at this time into the blockchain, so that other node organizations in the alliance chain may know that the cultural relic is in the library a for display, when the cultural relic needs to be transferred from the library a to the library B for display, the library a may update the display information from the library a to the library B for display, and when the cultural relic is received by the library B for display, the circulation information of the cultural relic is updated again. When other node mechanisms participating in the alliance chain check the cultural relic according to the unique cultural relic identification of the cultural relic or the gene information of the cultural relic, cultural relic circulation information corresponding to the cultural relic can be obtained in real time.

In one embodiment, a portfolio repair alignment contract for a federation chain is constructed; acquiring cultural relic repair data uploaded by a cultural relic repairer, wherein the cultural relic repair data comprises repair details and repair modes aiming at the cultural relics; and after the restoration of the cultural relics is completed, updating the genetic information of the cultural relics in the alliance chain through the cultural relic restoration data.

When a cultural relic restorer restores the cultural relic, the cultural relic restoration data can be uploaded to the block chain, the processor can construct a cultural relic restoration comparison contract according to the cultural relic restoration data uploaded by the restorer, and the cultural relic restoration data comprises restoration details and a restoration mode aiming at the cultural relic. After the cultural relics are repaired, the genetic information of the cultural relics to be repaired and maintained can be updated in real time through the repair data after the cultural relics are repaired, and the specific repair content of the cultural relics can be determined. Each node mechanism participating in the alliance chain can inquire the cultural relic repair maintenance state through the cultural relic repair comparison contract, and the obtained cultural relic repair state is updated in real time.

In one embodiment, in the cultural relic cross-breeding process, the genetic information of the cultural relic is acquired from the alliance chain as shared genetic information; matching the shared gene information with the entity gene information of the cultural relic, wherein the entity gene information is obtained by carrying out gene extraction on the cultural relic of the entity; and uploading the click-to-hand information of the cultural relic to the alliance chain under the condition that the entity gene information is successfully matched with the shared gene information.

The cultural relic point delivery is an indispensable ring in cultural relic exhibition and is a process for recording and approving the names, numbers, quantities and storage conditions of the cultural relics to be exhibited in detail by the two parties of cultural relic delivery. The knowledge of the name, number, quantity and preservation condition of the cultural relics is essential in the cultural relic point-crossing process.

Museums and exhibition institutions related to the cultural relic exhibition can be added into the block chain as one of the nodes, so that the alliance chain of the cultural relic is formed. In the alliance chain, two parties needing to perform text point crossing can be used as nodes of the alliance chain to obtain gene information of a text through a unique identification of the text, wherein the obtained text information is shared gene information. The processor can match the shared gene information obtained by the alliance chain with the entity gene information of the cultural relic needing to be jointed, wherein the entity gene information is obtained by extracting the gene of the cultural relic of the entity. In the case where the entity genetic information of the cultural relic matches the genetic information shared by the cultural relic obtained through the federation chain, the cross-over information of the cultural relic may be uploaded to the federation chain, and the cross-over information may correspond to the corresponding cultural relic genetic information. So that other node authorities of the federation chain may share this information.

In one embodiment, in the case of failure of matching of the entity gene information and the shared gene information, obtaining a cultural relic identification of the cultural relic; searching circulation information corresponding to the cultural relic identification, point intersection nodes where the cultural relic passes, and gene information and operation information corresponding to each point intersection node through the alliance chain; and verifying the operation information of the cultural relic at each intersection node through the circulation information and the genetic information of the cultural relic so as to trace the source of the matching failure of the entity genetic information and the shared genetic information.

When performing point cross of the cultural relics, when matching the entity gene information of the cultural relics with the shared gene information of the cultural relics obtained from the alliance chain, if the matching failure of the entity gene information and the shared gene information occurs, the processor can obtain the cultural relic identification of the cultural relics, wherein the cultural relic identification is a unique identification corresponding to the cultural relics generated when the gene information of the cultural relics is registered in an intelligent contract of the alliance chain, and the cultural relic information uploaded to the alliance chain and related to the cultural relics can correspond to the unique identification of the cultural relics, that is to say, all uploaded cultural relic information corresponding to the cultural relics can be inquired according to the unique identification of the cultural relics. After the unique identification corresponding to the cultural relic is obtained, circulation information corresponding to the unique identification of the cultural relic corresponding to the cultural relic is searched through the alliance chain, namely cultural relic circulation information corresponding to the genetic information of the cultural relic corresponding to the identification of the cultural relic is inquired. The circulation information may include the click-to-click nodes previously performed by the cultural relic, the gene information corresponding to each click-to-click node, and the specific operation information. And tracing the point intersection process or the circulation process before the cultural relic through the circulation information so as to determine that the cultural relic at which node has a problem causes the failure of matching the entity genetic information with the shared genetic information in the alliance chain. The processor can acquire all circulation information of the cultural relics in the circulation process and related cultural relic gene information and operation information of the cultural relics at each intersection node through the unique identification of the cultural relics, construct the identity information and picture identification of the cultural relics through the gene information of the cultural relics, verify the data link information of each cultural relic, and acquire the intersection information of the cultural relics at each key node from the data link information of each cultural relic, such as a timestamp, operation content, an identification file and the like.

In one embodiment, a processor is provided and configured to perform any one of the above-mentioned evidence-keeping methods for exhibition and circulation of blockchain-based cultural relics.

The processor can acquire basic information of museums and exhibition institutions related to the cultural relics and store the basic information into the block chain, wherein the processor can also acquire basic information of cultural relic related workers in the museums or the exhibition institutions, such as cultural relic related workers of gene collectors of the cultural relics, cultural relic appraisers, cultural relic maintainers, cultural relic repairers and the like, store the acquired basic information into the block chain together as the basic information of the museums and the exhibition institutions, and take the museums and the exhibition institutions as nodes of the block chain to form the alliance chain, wherein the cultural relic related workers can also be taken as the nodes of the block chain separately to join the alliance chain. After the federation chain is formed, an intelligent contract of the federation chain can be constructed. The processor can acquire the entity gene information of the cultural relics, upload the entity gene information of the cultural relics to the alliance chain, and after registering the gene information of the cultural relics in the intelligent contract of the block chain, generate a unique cultural relic identification corresponding to each cultural relic through the intelligent contract. And the genetic information of the cultural relic is submitted to the alliance chain in a transaction mode, wherein the transaction mode means that the genetic submission process and the submitted data can be recorded in the form of an account book when the genetic information is submitted, so that the phenomenon that the data is maliciously tampered is avoided. Therefore, the gene information of the cultural relics is shared through the block chain.

Since the information of the cultural relic appraiser is added into the alliance chain, the cultural relic appraiser can share the gene information of the cultural relic through the block chain, and research and appraise the entity of the cultural relic corresponding to the genetic information of the cultural relic according to the obtained genetic information of the cultural relic so as to obtain the research data of the cultural relic, wherein the research data of the cultural relic comprises the appraisal data of the cultural relic corresponding to the genetic information. For example, the cultural relic appraiser can appraise the cultural relic through the gene record information of the cultural relic and the cultural relic entity corresponding to the gene record information and research the cultural meaning behind each cultural relic, thereby obtaining the research appraisal data of each cultural relic.

The intelligent contract constructed by the alliance chain can comprise a cultural relic identification intelligent contract, the processor can upload the research identification data of the cultural relic to the cultural relic research identification contract after acquiring the cultural relic research identification data determined by the cultural relic identifier, and the research identification data corresponds to the cultural relic identifier and the genetic information of the researched and identified cultural relic. And each node mechanism participating in the alliance chain can check the research identification data of the cultural relic in real time according to the gene information of the cultural relic through the cultural relic research identification contract and obtain the cultural relic identifier of the research identification data.

The processor can also construct a cultural relic exhibition circulation contract aiming at the exhibition of the cultural relics, the cultural relics circulate in different museums or exhibition mechanisms in the exhibition process, the addresses of the exhibition are changed, the museums or the exhibition mechanisms which are in charge of exhibiting the cultural relics can update the specific exhibition information of the cultural relics through the block chain, the processor can acquire the circulation information of the cultural relics every time, upload the circulation information to the cultural relic exhibition circulation contract and correspond the circulation information of the cultural relics to the gene information of the cultural relics. Each node mechanism participating in the alliance chain can view or share circulation information of the cultural relics in real time through the cultural relic exhibition circulation contract. When the cultural relics are checked through the gene information of the shared cultural relics, the cultural relic circulation information corresponding to the cultural relics can be acquired in real time.

The processor may also construct a cultural relic repair comparison contract for the repair of the cultural relic. When a cultural relic restorer restores the cultural relic, the cultural relic restoration data can be uploaded to the block chain, the processor can construct a cultural relic restoration comparison contract according to the cultural relic restoration data uploaded by the restorer, and the cultural relic restoration data comprises restoration details and a restoration mode aiming at the cultural relic. After the cultural relics are repaired, the genetic information of the cultural relics to be repaired and maintained can be updated in real time through the repair data after the cultural relics are repaired, and the specific repair content of the cultural relics can be determined. When each node mechanism participating in the alliance chain checks the shared gene information of the cultural relic, the repair comparison data of the cultural relic can be checked, so that the cultural relic repair maintenance state can be obtained in real time.

In the process of exhibition and circulation of the cultural relics, cultural relic point delivery is an indispensable ring, and the cultural relic point delivery refers to the process of recording and approving detailed characters and images of names, numbers, quantities and storage conditions of the cultural relics to be exhibited by both parties of the cultural relic delivery. The knowledge of the name, number, quantity and preservation condition of the cultural relics is essential in the cultural relic point-crossing process. Because the museum and the exhibition and display institution related to the cultural relic exhibition are both used as blockchain nodes and are in the alliance chain, when the alliance chain is in the alliance chain, two parties needing to carry out cultural relic ordering can be used as the nodes of the alliance chain to obtain shared gene information of the cultural relic, and the entity gene information of the circulated cultural relic is matched with the shared gene information of the cultural relic, wherein the entity gene information is obtained by carrying out gene extraction on the cultural relic of the entity. In the case where the entity genetic information of the cultural relic matches the genetic information shared by the cultural relic obtained through the federation chain, the cross-over information of the cultural relic may be uploaded to the federation chain, and the cross-over information may correspond to the corresponding cultural relic genetic information. So that other node authorities of the federation chain may share this information.

If the situation that the matching of the entity gene information and the shared gene information fails occurs, the processor can acquire a cultural relic identification of the cultural relic, wherein the cultural relic identification is a unique identification which is generated when the gene information of the cultural relic is registered in an intelligent contract of the alliance chain and corresponds to the cultural relic. After the unique identification corresponding to the cultural relic is obtained, circulation information corresponding to the cultural relic identification is searched through the alliance chain, namely cultural relic circulation information corresponding to the genetic information of the cultural relic corresponding to the cultural relic identification is inquired. The circulation information may include the click-to-click nodes previously performed by the cultural relic, the gene information corresponding to each click-to-click node, and the specific operation information. And tracing the point intersection process or the circulation process before the cultural relic through the circulation information so as to determine that the cultural relic at which node has a problem causes the failure of matching the entity genetic information with the shared genetic information in the alliance chain.

Through the technical scheme, the museum and the exhibition and display institution which are involved in the circulation process of the cultural relic are determined as the nodes of the block chain to form the alliance chain, and the intelligent contract of the alliance chain is constructed. And uploading the genetic information of the cultural relics to the alliance chain, determining the cultural relic identification corresponding to each cultural relic in the alliance chain, and sharing the cultural relic information through the block chain when the cultural relics circulate in the enterprises in the alliance. In the technical scheme, the enterprises which determine the nodes to become the block chains can construct the alliance chains, the establishment of the alliance chains can enable the information of the cultural relics to be shared in real time, the cultural relics are monitored and tracked in the research, repair and exhibition processes through the block chains, and the safety of the circulation of the cultural relics collection in exhibition and exhibition is guaranteed.

In one embodiment, a evidence storage device for circulation of cultural relics exhibition based on a block chain is provided, and comprises the processor provided above.

The processor comprises a kernel, and the kernel calls the corresponding program unit from the memory. The kernel can be set to be one or more than one, and the evidence storage method for cultural relics exhibition circulation based on the block chain is realized by adjusting the kernel parameters.

The memory may include volatile memory in a computer readable medium, Random Access Memory (RAM) and/or nonvolatile memory such as Read Only Memory (ROM) or flash memory (flash RAM), and the memory includes at least one memory chip.

The embodiment of the application provides a storage medium, wherein a program is stored on the storage medium, and the program realizes the method for storing the cultural relic data by using the knowledge graph when being executed by a processor.

In one embodiment, a computer device is provided, which may be a server, the internal structure of which may be as shown in fig. 2. The computer device includes a processor a01, a network interface a02, a memory (not shown), and a database (not shown) connected by a system bus. Wherein processor a01 of the computer device is used to provide computing and control capabilities. The memory of the computer device comprises an internal memory a03 and a non-volatile storage medium a 04. The non-volatile storage medium a04 stores an operating system B01, a computer program B02, and a database (not shown in the figure). The internal memory a03 provides an environment for the operation of the operating system B01 and the computer program B02 in the nonvolatile storage medium a 04. The database of the computer equipment is used for storing the acquired massive multi-source heterogeneous cultural relic data. The network interface a02 of the computer device is used for communication with an external terminal through a network connection. The computer program B02 is executed by the processor A01 to implement a evidence storage method for circulation of cultural relics exhibition based on block chain.

Those skilled in the art will appreciate that the architecture shown in fig. 2 is merely a block diagram of some of the structures associated with the disclosed aspects and is not intended to limit the computing devices to which the disclosed aspects apply, as particular computing devices may include more or less components than those shown, or may combine certain components, or have a different arrangement of components.

The embodiment of the application provides equipment, the equipment comprises a processor, a memory and a program which is stored on the memory and can run on the processor, and the following steps are realized when the processor executes the program: acquiring basic information of a museum and an exhibition and display mechanism, and storing the basic information into a block chain; respectively determining each museum and exhibition and display organization as nodes of a block chain to form a alliance chain; constructing intelligent contracts of the alliance chain; uploading the gene information of the cultural relics to a alliance chain, and after registering the gene information to an intelligent contract, generating a cultural relic identifier corresponding to each cultural relic through the intelligent contract; and submitting the genetic information to a alliance chain in a transaction mode so as to realize the sharing of the genetic information through the block chain.

In one embodiment, cultural relic research data uploaded by a cultural relic identifier and corresponding to the genetic information is obtained, the cultural relic research data is uploaded by the cultural relic identifier after research is performed on the cultural relics of the entity after the genetic information is obtained through the alliance chain, and the cultural relic research data comprises identification data of the cultural relics corresponding to the genetic information.

In one embodiment, in the case that the exhibition address of the cultural relic is changed, the museum or exhibition organization which exhibits the cultural relic updates the basic information of the cultural relic through the alliance chain so as to realize the updating of the circulation information of the cultural relic.

In one embodiment, a portfolio repair alignment contract for a federation chain is constructed; acquiring cultural relic repair data uploaded by a cultural relic repairer, wherein the cultural relic repair data comprises repair details and repair modes aiming at the cultural relics; and after the restoration of the cultural relics is completed, updating the genetic information of the cultural relics in the alliance chain through the cultural relic restoration data.

In one embodiment, in the cultural relic cross-breeding process, the genetic information of the cultural relic is acquired from the alliance chain as shared genetic information; matching the shared gene information with the entity gene information of the cultural relic, wherein the entity gene information is obtained by carrying out gene extraction on the cultural relic of the entity; and uploading the intersection point information of the cultural relics to the alliance chain under the condition that the entity gene information and the shared gene information are successfully matched.

In one embodiment, in the case of failure of matching of the entity gene information and the shared gene information, obtaining a cultural relic identification of the cultural relic; searching circulation information corresponding to the cultural relic identification, point intersection nodes where the cultural relic passes, and gene information and operation information corresponding to each point intersection node through the alliance chain; and verifying the operation information of the cultural relic at each intersection node through the circulation information and the genetic information of the cultural relic so as to trace the source of the matching failure of the entity genetic information and the shared genetic information.

In one embodiment, the nodes on the federation chain further comprise any one or more of a gene collector, a cultural relic identifier, a cultural relic evaluator, a cultural relic maintainer, and a cultural relic restorer of the museum cultural relic.

The preferred embodiments of the present application have been described in detail with reference to the accompanying drawings, however, the present application is not limited to the details of the above embodiments, and various simple modifications can be made to the technical solution of the present application within the technical idea of the present application, and these simple modifications are all within the protection scope of the present application.

It should be noted that, in the foregoing embodiments, various features described in the above embodiments may be combined in any suitable manner, and in order to avoid unnecessary repetition, various possible combinations are not described in the present application.

In addition, any combination of the various embodiments of the present application is also possible, and the same should be considered as disclosed in the present application as long as it does not depart from the idea of the present application.

Claims (5)

1. A cultural relic exhibition circulation evidence storage method based on a block chain is characterized by comprising the following steps:

acquiring basic information of a museum and an exhibition and display mechanism, and storing the basic information to the block chain;

respectively determining each museum and exhibition and display organization as nodes of the block chain to form a alliance chain;

the nodes on the alliance chain further comprise any one or more of a gene collector, a cultural relic identifier, a cultural relic evaluator, a cultural relic maintenance person and a cultural relic repairer of the cultural relic of the museum;

building an intelligent contract for the federation chain;

constructing a cultural relic repair comparison contract of the alliance chain;

acquiring cultural relic repair data uploaded by the cultural relic repairer, wherein the cultural relic repair data comprises repair details and repair modes aiming at the cultural relics;

after the restoration of the cultural relics is completed, updating the genetic information of the cultural relics in the alliance chain through cultural relic restoration data;

after the genetic information of the cultural relics is uploaded to the alliance chain and is registered to the intelligent contract, the cultural relic identification corresponding to each cultural relic is generated through the intelligent contract;

submitting the genetic information to the alliance chain in a trading mode so as to realize the sharing of the genetic information through the block chain;

in the process of the object point crossing, acquiring the gene information of the object from the alliance chain as shared gene information;

matching the shared gene information with entity gene information of the cultural relics, wherein the entity gene information is obtained by carrying out gene extraction on the cultural relics of the entities;

uploading the point crossing information of the cultural relic to the alliance chain under the condition that the entity gene information is successfully matched with the shared gene information;

under the condition that the exhibition address of the cultural relic is changed, the museum or exhibition organization which exhibits the cultural relic updates the basic information of the cultural relic through the alliance chain so as to update the circulation information of the cultural relic;

under the condition that the matching of the entity gene information and the shared gene information fails, acquiring a cultural relic identifier of the cultural relic;

searching circulation information corresponding to the cultural relic identification, point intersection nodes where the cultural relic passes, and gene information and operation information corresponding to the point intersection nodes through the alliance chain;

and verifying the operation information of the cultural relic at each intersection node through the circulation information and the genetic information of the cultural relic so as to trace the source of the matching failure of the entity genetic information and the shared genetic information.

2. The method of claim 1, further comprising:

acquiring cultural relic research data which is uploaded by a cultural relic identifier and corresponds to the gene information, wherein the cultural relic research data is uploaded by the cultural relic identifier after researching the physical cultural relics after the genetic information is acquired by the cultural relic identifier through the alliance chain, and the cultural relic research data comprises identification data aiming at the cultural relics corresponding to the gene information.

3. A processor configured to perform the evidence-depositing method for circulation of block chain-based cultural relics exhibition according to any one of claims 1 to 2.

4. A evidence storage device for circulation of cultural relics exhibition based on a block chain, which is characterized by comprising the processor according to claim 3.

5. A machine-readable storage medium having instructions stored thereon, which when executed by a processor, cause the processor to perform the evidence-keeping method of block chain-based cultural relic exhibition circulation according to any one of claims 1 to 2.

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