KR102510970B1 - Method applying data record proof based on cloud blockchain - Google Patents

Abstract

The present invention relates to a technology related to a data record verification method based on a cloud blockchain, which facilitates the verification of test reports, and an application programming interface (API) module supporting the same. According to one embodiment of the present invention, the data record verification method based on a cloud blockchain comprises the steps of: mapping a test process included in a test data management system and a work process for each person in charge to unit tasks of a block generation node on a cloud blockchain network; when the mapped unit task is processed at the block generation node according to a set procedure of the test process, generating a transaction corresponding to the same; upon completion of the testing process, issuing a test report verifying a processed data record; and generating an m^th block in which all block generation nodes on the cloud blockchain network participate on the basis of the transaction occurrence time, and forming a blockchain combining the previous n^th block and the m^th block when the m^th block is valid.

Description

Data Record Proof Method Based on Cloud Blockchain {METHOD APPLYING DATA RECORD PROOF BASED ON CLOUD BLOCKCHAIN}

The present invention relates to a method for proving data records based on a cloud blockchain and a technology related to an API module supporting the same.

LIMS (Laboratory Information Management System) refers to a data management system introduced to facilitate various sample management and information operation in various test-related institutions or companies with test-related tasks.

According to the International Organization for Standardization (ISO221) standard, which covers the basic concepts and principles of records management, records can be defined as evidence and assets related to business activities and transactions. Here, record value comes from what exists as it is at the time the record was created.

To this end, the process of production, reliability, and management of records must have integrity and authenticity. To make this possible, records management is a management area that efficiently and systematically controls records from production to disposal.

Blockchain is a recent record management technology. Blockchain is a form of distributed database managed through a P2P (Peer to Peer) network. Here, a block is created based on a transaction, and a block chain is a combination of several blocks generated according to a certain standard according to the order in which they are created.

On the other hand, blockchain is also called Distributed Ledger Technology (DLT), which means that ledger data recording transaction information is recorded and managed jointly by participants rather than a central server. Blockchain is used to prove data records because it has the property that once data is recorded, it cannot be modified, forged or tampered with.

The present disclosure may provide a data record verification method based on cloud blockchain and an API module supporting the same.

However, the objects of the present invention are not limited to the above-mentioned objects, and other objects not mentioned will be clearly understood by those skilled in the art from the description below.

In the first aspect of the present disclosure, in the data record verification method based on the cloud blockchain, the test process included in the inspection data management system and the work process for each person in charge are mapped to the unit work of the block generation node on the cloud blockchain network. ; Generating a corresponding transaction when the mapped unit task is processed at the block generation node according to the prescribed procedure of the test process; issuing a test report certifying the processed data record when the test process is completed; And based on the transaction occurrence time, an M-th block is created in which all the plurality of block generating nodes on the cloud blockchain network participate, and if the M-th block is valid, a blockchain combining the previous N-th block and the M-th block Constructing; discloses a method including.

Here, the step of adding or changing a block generation node participating in the cloud blockchain network; wherein the cloud blockchain network is a private network in which only previously authorized block generation nodes can participate, and the block generation node can be allowed to participate in the cloud blockchain network only when possessing the public key and private key issued through the identity verification API.

Here, the step of processing some of the unit tasks of the test process in the progress node; wherein the test process includes test request, test reception, test initiation, sample collection, test instruction, tester assignment, test result input, Unit tasks including at least one of test result review, test approval, test completion, test report issuance, test record reading, and test report authenticity verification may be connected in a predetermined order and may be a process from test initiation to test completion.

Here, the test report may be a certificate that is filled in conjunction with the data record at the same time as the block chain is formed by recording data according to a predetermined form by each block generating node.

In addition, in the step of constructing the blockchain, the first block generating node among all block generating nodes on the cloud blockchain network generates a block using a private key, and the remaining block generating nodes verify the generated block. It may be a step of participating in the block generation by performing.

Also, according to a request of the requesting node, the step of inquiring the progress of the test process; Inquiring for proof of authenticity of the test report based on the blockchain ledger; and browsing the evidence data attached to the test report; The method may further include performing at least one or more steps corresponding to the request of the requesting node.

In a second aspect of the present disclosure, in the API module supporting a data recording verification method based on a cloud blockchain, the API module includes: an identity verification API supporting identification of each node on a cloud blockchain network; A test management API for mapping each work unit of the inspection data management system with data records in progress nodes, and recording unit tasks in each progress node and test processes corresponding to the unit tasks; Authenticity proof API that supports authenticity proof of the test report or the blockchain; An API module including at least one or more APIs may be provided.

In addition to this, another method for implementing the present invention, another system, and a computer readable recording medium storing a computer program for executing the method may be further provided.

The present invention implements a laboratory information management system (LIMS) through a block chain, thereby ensuring data record verification, data record automation, and data integrity through LIMS.

In addition, according to an example of the present invention, by leaving a data record including the approval (signature) information of the person in charge who processed it at each stage of the test process, it is clear that the entire process of the test process was carried out transparently and through a predetermined procedure. It can perform the function of guaranteeing quality.

In addition, according to an example of the present invention, a requester who has made a test request can view at what stage of the test process the request is currently being made, and when a test report is issued, it is possible to easily prove the test report. can

1 is an example illustrating a blockchain network configured through a cloud according to an embodiment of the present invention.
2A and 2B are exemplary diagrams for explaining implementation of a data record verification method based on a cloud blockchain using an API module according to an embodiment of the present invention.
3 is a flowchart of a data record verification method based on a cloud blockchain according to an embodiment of the present invention.
4 is a diagram for explaining mapping of a test data management system according to an embodiment of the present invention to unit tasks of a block generation node.
5A and 5B are exemplary diagrams of a predetermined test report used in a test data management system (LIMS) according to an embodiment of the present invention.
6 is an exemplary view of a test report generated as a digital certificate according to an embodiment of the present invention.

Advantages and features of the present invention, and methods for achieving them will become clear with reference to the detailed description of embodiments in conjunction with the accompanying drawings. However, it should be understood that the present invention is not limited to the embodiments presented below, but may be implemented in a variety of different forms, and includes all conversions, equivalents, and substitutes included in the spirit and scope of the present invention. . The embodiments presented below are provided to complete the disclosure of the present invention and to fully inform those skilled in the art of the scope of the invention to which the present invention belongs. In describing the present invention, if it is determined that a detailed description of related known technologies may obscure the gist of the present invention, the detailed description will be omitted.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "include" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Some embodiments of the present disclosure may be represented as functional block structures and various processing steps. Some or all of these functional blocks may be implemented as a varying number of hardware and/or software components that perform specific functions. For example, functional blocks of the present disclosure may be implemented by one or more microprocessors or circuit configurations for a predetermined function. Also, for example, the functional blocks of this disclosure may be implemented in various programming or scripting languages. Functional blocks may be implemented as an algorithm running on one or more processors. In addition, the present disclosure may employ prior art for electronic environment setup, signal processing, and/or data processing, etc. Terms such as “mechanism,” “element,” “means,” and “composition” will be used broadly. It can, and is not limited to mechanical and physical giants.

In addition, connecting lines or connecting members between components shown in the drawings are only examples of functional connections and/or physical or circuit connections. In an actual device, connections between components may be represented by various functional connections, physical connections, or circuit connections that can be replaced or added.

Hereinafter, the present disclosure will be described in detail with reference to the accompanying drawings.

1 is an example illustrating a blockchain network configured through a cloud 1010 according to an embodiment of the present invention.

According to an example, a blockchain network may include a public blockchain in which authority is open to all participants and a private blockchain in which authority is open to limited participants.

The purpose of the present invention is to prove data records, automate data records, and secure integrity of data by implementing a test data management system through a block chain, so it aims for a private block chain (1000).

Here, the test data management system may include an embodiment of a Laboratory Information Management System (LIMS).

According to one embodiment, the present invention may support an API module for applying blockchain-based data record verification to each company's inspection data management system. Here, an application programming interface (API) may mean a collection of various functions necessary for configuring a screen or operating a program so that application program developers can easily create a program that operates in an operating system when creating an application.

The API module of the present invention may include several functions that support each company's participation in the cloud blockchain network. In addition, in the present invention, the API module may play a role of connecting a physically separated internal network and an external network. In addition, through the API module, each node in the internal and external network can participate in the cloud blockchain network, or a support function for viewing and verifying the authenticity of the result generated through the cloud blockchain network can be performed.

Meanwhile, the API module of the present invention may be provided through the cloud 1010. The cloud provides a storage environment that stores important data in a server built using the computing power of a central server. Individuals or companies can reliably participate in the blockchain through the cloud server without building their own server if it is through the cloud.

In addition, an embodiment of the present invention supports blockchain as a service (BaaS). Here, blockchain as a service is a concept of providing a blockchain development environment as a cloud service, and can provide software that is easy to add and remove nodes in a blockchain network. When building a cloud-based blockchain network, there is an advantage in that server resources can be allocated regardless of location.

Referring to FIG. 1, a request node (request node 01), a plurality of block generation nodes (block generation nodes 01 to 04), and progress nodes (progress nodes 01 to 02) constituting the private blockchain network 1000, respectively. You can access them from different places.

For example, test client 01 in company A using an external network can access through request node 01 (R01). At this time, the API module is a network API that manages each node between the external network used by company A and the internal network that proceeds with most of the test process so that they can be equally accessed on the private blockchain network 1000 ( not shown) may be included.

In addition, in the test request reception room, the test request receiver 01 can access through the block generation node 01 (B01), and in the sample collection room, the sample collector 01 can access through the block generation node 02 (B02). Experiment approver 01, test suitability judge 01, etc. access through the block generation node 03 (B03), and in the test result certification room, the certificate issuer 01 can access through the block generation node 04 (B04).

On the other hand, here, the name of the place that is intuitively easy to grasp and the name corresponding to the main task of the person in charge are used, but in addition to that, the person in charge ID to identify the person in charge, or the block generation node through the IP address that the person in charge accesses the network, etc. You can identify it, or you can grant access to the corresponding ID or IP address in the identity verification API.

On the other hand, in order to participate in the cloud blockchain network, it may be important to be authenticated in advance as a participant in the cloud blockchain network. Since the present invention is oriented toward the private blockchain network 1000, each node can receive a public key and a private key to participate in the blockchain network through an identity verification API among the API modules of the present invention.

On the other hand, on the blockchain network, in addition to the block generation node to which block generation authority has been granted, request node 01 (R01) accessed by the test client, progress node 01 (P01) for recording data of the person in charge participating in the experiment process, and progress node 02 ( P02) and the like. For example, in laboratory 01, tester 01, tester 02, tester 03, etc. log in with their IDs, participate in the cloud blockchain network through progress node 01 (P01), and record data. As another example, examiners 10 and 11 in laboratory 02 can log in with their IDs and participate in the blockchain network through progress node 02 (P02).

Meanwhile, the progress node and the person in charge (tester, etc.) can participate as an observer on the cloud blockchain network, and the authority for this can be set in advance through an identity verification API.

2A and 2B are exemplary diagrams for explaining implementation of a data record verification method based on a cloud blockchain using an API module according to an embodiment of the present invention.

According to one example, a company can produce and record a lot of data in a laboratory, and review and review of test results, decision criteria and judgment results for determining the eligibility of the test, and the decision of each person in charge at each stage of the test. You may have numerous test processes, such as approval, and work processes for the person in charge. Here, a system for organically integrating and managing the company's test process and the person in charge's work process may be referred to as the inspection data management system 10 .

Regarding a specific test process that a company has, a test request may come from an outside individual/company. can be issued.

If the prior art only discloses building the inspection data management system 10 suitable for the laboratory environment possessed by the company, the present invention automates the inspection data management system 10 of the company based on blockchain technology, thereby recording data. to ensure integrity and reliability. In particular, as blockchain technology combines the same blockchain in multiple participating nodes, forgery and falsification are almost impossible, so the entire process from the start of the test to the completion of the test can be recorded transparently, and the authenticity of the test report can be verified. make it easy to verify.

On the other hand, in addition to the inspection data management system exemplified in the present invention, the present invention can be applied when there are systemized test processes such as data management standards for unstructured data, standards for data source verification, and standards for data collection and processing. there is.

Referring to FIG. 2B, the API module 100 of the present invention serves as a bridgehead for combining the test process and work process of the inspection data management system 10 with blockchain technology, and the identity verification API according to the function of the provided service. (110), test management API (120), authenticity verification API (130), ... etc. may be included. Here, an API may be understood as a library, etc., which is a collection of instructions for a user to easily implement a corresponding function, and the name may be arbitrarily named according to a support function provided by the API. In addition, the API module 100 of the present invention may include a user interface for a user to check and apply support functions provided by the API.

For example, the API module 100 may provide a user interface screen to support a data record verification method based on a cloud blockchain from a user perspective.

For example, the identity verification API 110 may support identification of each node on the cloud blockchain network. To this end, the identity verification API 110 may include a request node API, a block generation node API, and a progress node API. For example, the request node API may be an interface screen that a requester requesting a test can see when accessing the requester's side to receive appropriate permission to participate in the cloud blockchain network.

In addition, the block generation node API can be an interface screen for registering a location with a unique ID, unique IP or PC for each person in charge in the test process to receive appropriate permission to participate in the cloud blockchain network. there is.

In addition, the progress node API allows each person performing the test according to the test process to participate in the cloud blockchain network for tasks other than block generation, for example, for each person assigned some task in a series of processes for individual tests. Appropriate authority can be granted. At this time, the progress node API may be an interface screen for registering a place where a unique ID, unique IP, or PC for each person in charge is located.

As described above, the identity verification API can support a user interface for registering and managing nodes to access a cloud blockchain network.

The test management API 120 maps each task unit of the test data management system with data records in a block generation node or progress node, and performs unit tasks in each block generation node or progress node and tests corresponding to the unit tasks. process can be matched. For example, the test management API 120 may include a test request API, a test reception API, a test progress API, a test approval API, and the like.

Among the test management APIs 120, the test request API provides an interface screen on which request items requested by request nodes through the cloud blockchain network, such as test items, request requester, request date, and review request date, etc. can do.

Among the test management APIs 120, the test reception API can provide an interface screen on which the block generation node can classify test items for requested cases and describe test items, recipients, and date of receipt.

Among the test management APIs 120, the test progress API may provide an interface screen for setting a test procedure, designation of a person in charge, designated work, and payment line according to the content of the test process. The test progress API can provide an interface screen for users to more easily map the test process of the test data management system and unit tasks of the block generation node.

Among the test management APIs 120, the test approval API may provide an interface screen for inputting all decisions, such as review, rejection, hold, and approval by a person in charge of a test item, and the final test judgment result (pass/fail).

The authenticity proof API 130 may provide a test report or an interface for supporting authenticity proof of the blockchain. To this end, the authenticity verification API 130 may include a REST API, data composition API, QR code API, reference document API, and the like.

Among the authentication APIs 130, the REST API may provide an interface screen through which information on a request node, a progress node, and a block generation node can be viewed on a web page.

Among the authentication API 130, the data configuration API may provide an interface screen for configuring a predetermined form (format) for generating a test report. For example, it is possible to provide an interface screen where data described in each step of the LIMS can be set to which items on the test report are mapped.

Among the authentication APIs 130, the QR code API may provide a function of generating a unique QR code for the test report and an interface screen for arranging the generated QR code at a specific location in the test report. At this time, the user can read the test report through the QR code or easily read the authenticity determination result of the test report.

Among the authenticity verification APIs 130, the reference document API may provide an interface screen for setting a link to connect a reference document, which is the basis data, to the test report and uploading the reference document.

In addition, the API module 100 may further include a function such as a network API (not shown) supporting a block chain network configuration through a cloud. Here, the API module 100 mainly describes the interface aspect for recording data through the cloud blockchain network from the user side, but the API module 100 supports the aforementioned cloud blockchain network and test process through various programs. function can be performed.

As described above, if the inspection data management system is mapped with the block chain-based unit task for data record verification through the API module 100 of the present invention, certain blocks (Mth Block 21, N-th block 22, O-th block 23, etc.) are continuously created, and each block (M-th block 21, N-th block 22, O-th block 23, etc.) ), a block chain can be created that combines the created block with the previous block.

For example, a block generating node generates a transaction while processing a unit task, generates a block based on the transaction, and when the validity of the corresponding block from other block generating nodes is verified, the previous block and the corresponding block It is possible to construct a block chain that combines On the other hand, when a block chain is formed, the contents can be recorded in the block chain ledger. This will be described later in detail with reference to FIG. 3 .

3 is a flowchart of a data record verification method based on a cloud blockchain according to an embodiment of the present invention.

According to an embodiment of the present invention, in the data recording verification method based on the cloud blockchain, each node constituting the cloud blockchain network may configure the blockchain based on the following steps.

In step 310, the test management API 120 may map the test process included in the test data management system and the work process for each person in charge to the unit work of the block generation node on the cloud blockchain network. This is a pre-set condition for generating a block, and the test management API 120 can grant authority regarding which node is designated as a block generation node and which node is designated as a simple progress node. At this time, each node may be mapped with a unit task corresponding to the test process of the inspection data management system and the work process of a person in charge for processing it.

Meanwhile, the identity verification API 110 may further include adding or changing a block generation node participating in the cloud blockchain network. Here, the cloud blockchain network is a private network in which only block generation nodes that have received permission in advance can participate, and at this time, the block generation node possesses the public key and private key issued through the identity verification API. Network participation may be allowed.

In step 320, when the block generation node processes the unit task mapped at the block generation node according to the prescribed procedure of the test process, it may generate a corresponding transaction. At this time, there is not necessarily a plurality of block generating nodes that generate transactions, and even a single block generating node can generate a corresponding transaction if the unit task mapped to the corresponding block generating node is processed.

Here, the test process includes at least one of test request reception, test initiation, sample collection, test order, tester assignment, test result input, test result review, test approval, test completion, test report issuance, test record reading, and test report authenticity proof. It may be a process from test initiation to test completion in which unit tasks including one are connected in a predetermined order.

Meanwhile, in addition to the unit tasks mapped to the block generation node, there may be additional unit tasks required to proceed with the test process. At this time, the test management API 120 may map some of the unit tasks of the test process to a specific node, and at this time, the node to which the unit task is mapped may be referred to as a progress node. For example, a progress node may process some of the unit tasks of the test process (transactions for block generation may not occur for the processed unit tasks at this time).

Through this, data on the entire process of the test process of LIMS can be recorded, and unit tasks for block generation and other unit tasks can be distinguished depending on the severity of data creation and management and whether the person in charge is prioritized.

In step 330, the block generation node mapped to the final stage of the test process may issue a test report proving the processed data record when the test process is completed. Here, the test report may be a digital certificate that is filled in conjunction with the data record at the same time as the block chain is formed by recording data according to a predetermined form by each block generating node.

For example, the data recorded by the person in charge at each stage of the test report can be automatically recorded in a designated column of the test report according to a predetermined format. In addition, the date and time the person in charge recorded the data and the signature of the person in charge may also be recorded. According to this, one person in charge cannot manipulate previous data or make changes such as arbitrary deletion during the test process, and if the contents of the data are to be changed, data correction may be newly recorded with the signature of the person in charge.

In step 340, each of the plurality of block generating nodes generates an M-th block in which all the plurality of block generating nodes on the cloud blockchain network participate based on the transaction occurrence time, and if the M-th block is valid, the previous N-th block It is possible to configure a block chain combining the M-th block and the M-th block. Here, M and N may be any natural number.

For example, among all block generating nodes on the cloud blockchain network, the first block generating node can generate a block using a private key and participate in block generation by verifying the block generated by the other block generating nodes. . Here, verification of the generated block may be determining whether a transaction triggering block generation is valid. Alternatively, in order to check whether the authority of the first block generating node that generated the block is valid, the first block generating node encrypted with its own private key can be checked through the public key possessed by each block producing node.

On the other hand, if a specific PC is found to have cheated in the process of creating a block after verifying the transaction, the identity verification API can restrict the block creation authority of the PC or impose a penalty.

As another example, the requesting node requesting the proof of test results through this test process may request at least one of the test progress for the corresponding test process, the test report, and the authenticity of the corresponding test report.

For example, the authenticity proof API 130, upon request of the requesting node, inquires the progress of the test process, inquires the authenticity proof of the test report based on the blockchain ledger, or retrieves the evidence data attached to the test report. At least one or more steps corresponding to the request of the requesting node, such as browsing, may be performed.

FIG. 4 is a diagram for explaining mapping between a test data management system and unit tasks of a block generation node according to an embodiment of the present invention.

For example, referring to FIG. 4, if there is a standard for a person in charge and a test process in the inspection data management system, it can be mapped to a block generation node and unit tasks of the block generation node on the cloud blockchain network. For example, when a person in charge accesses a node on a blockchain network with his/her ID and records data with the authority granted to the person in charge at each stage of the test process, the block generation node generates a transaction for this, and You can create a block that inputs the corresponding data record.

In the test process, the person in charge produces and records actual data, but below, as a subject that creates a block and configures a block chain, the test process will be explained based on the block generation node and the unit task of the block generation node. On the other hand, in the present invention, since a person in charge with authority records data electronically through his/her own payment (or signature), the entire process of data recording can be automatically mapped into a predetermined form and inputted.

Referring to FIG. 4, the test process includes test request (T1, Request), test acceptance (T2, Receipt), sample collection (T3, Collect), test order and tester assignment (T4, Direction), test A (T4, Test ), Test B (T4, Test), Test A result review (T5, Inspection), Test B result review (T5, Inspection), Test A result approval (T6, approval), Test B result approval (T6, Approval), There may be test completion (T7, Complete), etc.

For example, when a test requester accesses request node 01 (01) through an identity verification API and enters related information in the test request (T1, Request) step through an interface provided by a test management API, request node 01 (01 ) can issue a test request based on the entered data. At this time, the request node 01 (01) is the item name/item type, test number, lot number/manufacturer/manufacture date/manufacture LOT, packaging quantity, warehousing quantity, expiration date, test completion request date, and at least one of remarks. The items of can be recorded according to the prescribed test request form.

The test taker reviews the input from the test requester, accesses the block generation node 01 (B01) through the identity verification API, records the test classification and date of receipt through the interface provided by the test management API, and submits the test ( T2, Receipt) step, you can input related information. At this time, the block generation node 01 (B01) may generate a block T2 by issuing a test receipt according to a predetermined format based on the data input by the test taker and generating a corresponding transaction. In this case, the test receipt may include the signature of the test taker who is in charge of receiving the test.

When the test is accepted, the sampler can record data related to sample collection (T3, Collect) according to a predetermined procedure in the test process. The sampler accesses the block generation node 02 (B02) through the identity verification API, and through the interface provided by the test management API, information about sample collection, such as sample collection amount, sample collection date, sample collection location, and sample storage Conditions, sample storage location, etc. can be recorded to input related information in the sample collection (T3, Collect) step. At this time, the block generating node 02 (B02) may generate a block T3 by issuing a sample label according to a predetermined format based on the data input by the sampler and generating a corresponding transaction. At this time, the signature of the sample collector who is in charge of the step may be recorded on the sample label.

The test manager can give test instructions and assign testers (T4, Direction) according to the standard of the test process. On the other hand, the test instruction and test assignment (T4, Direction) step may be performed before the sample collection (T3, Collect) described above, and in the present invention, the entire test process is only briefly described, and the detailed order of each step is somewhat may proceed differently.

Here, the test manager accesses the block generation node 03 (B03) through the identity verification API, and through the interface provided by the test management API, information about the test item/testor, such as analysis method, detailed task (item), etc. can be recorded to enter related information at the stage of test order and tester assignment (T4, Direction). At this time, the block generation node 03 (B03) may generate a block T4 by issuing a test order according to a predetermined format based on the data input by the test manager and generating a corresponding transaction. In this case, the test instruction may be recorded with the signature of the test manager who is in charge of the corresponding step.

In the test phase, when a tester performs a test and requests a manager for review of the test result, the test reviewer, the manager, can review the test result and deliver it to another manager, the test approver. At this time, the test approver can determine whether the test is appropriate or unsuitable.

For example, after the tester performs test A (T4, Test) at the progress node 02 (02), the test reviewer reviews the result of test A (T5, Inspection) at the progress node 03 (03), and the progress node 04 (T5, Inspection) 04), a series of processes in which the test approver approves the test A result (T6, Approval) can be performed. In particular, the test approver can suspend the test or send it down to the previous stage if the result review for Test A is inappropriate to satisfy the standards recognized by the test. Even at this time, the data recorded by multiple persons in charge at each stage can be input through the interface of the test management API.

On the other hand, there may be a test B (T4, Test) that is separate from test A (T4, Test) or linked to the result of test A (T4, Test), and the test B (T4, Test) also has a test reviewer Review of test B results (T6, Inspection), approval of test B results by test approvers (T6, Approval), etc. can be performed.

On the other hand, other than that, the method of performing the test in the test process may be various. At this time, if a plurality of persons in charge participate as testers and data is recorded according to the authority of each person in charge, the corresponding data recording contents may be described according to a predetermined form.

The tester who tests each test item can be authorized to participate in the test process through the identity verification API, and at this time, the tester records the data for the test A (or test B) item through the interface included in the test management API. If so, you can move on to the next step. At this time, depending on the severity of the test contents performed by the tester, it is determined whether the progress node 02 (02) simply records data and transfers tasks, or generates a new transaction and creates a block through the block generation node. It can be processed according to a predetermined procedure registered in advance through the management API. The test management API grants appropriate test management authority to each person in charge, and can specify in advance according to a predetermined test process which items of the test report the data entered by each person in charge will be mapped to.

When all test processes are completed, it can move on to the test report issuance step. For example, the certificate issuer inputs information on analysis method/test date/criterion/result/reason for test item/testor, test A (item/person in charge), tester/test reviewer/test approver, etc. can do. At this time, the block generation node 04 (B04) may issue a test report after completing the test (T7, Complete). At this time, the certificate issuer's signature and issued bibliography information may be recorded together. Hereinafter, a predetermined test report form will be described with reference to FIGS. 5 and 6 .

5A and 5B are exemplary diagrams of a predetermined test report used in a test data management system (LIMS) according to an embodiment of the present invention.

Referring to FIG. 5A, in the test data management system, when the test process is completed, including test request, person in charge, processing date, information related to sample collection, analysis items, test results, and final judgment for each item, the test report that is finally issued Samples are described. Here, the predetermined form may be partially changed according to the contents of the test process.

Referring to FIG. 5B , the test report form may include the decision result, the date of decision, the signature of the person in charge who completed the approval, such as the requester, reviewer, and approver, as approval information. The payment information of the test report can prove that the test report was legally issued in compliance with the prescribed procedure.

Referring to FIG. 4, the issuance of a test request, issuance of a test receipt, issuance of a sample label, issuance of a test order, issuance of a test report, etc. as unit tasks at each block generation node has been described. Here, various forms may be issued individually, but the data records described in each step may be automatically filled in with the block chain configuration in a predetermined form as shown in FIG.

6 is an exemplary view of a test report generated as a digital certificate according to an embodiment of the present invention. Here, the predetermined format for the corresponding test report should be understood as a sample. In addition, the test report can be issued in a form in which data is automatically filled in a predetermined form, and as another example, a link to check the contents related to the test, attached documents, etc. through a QR code included in the test report is provided. can be provided together.

Referring to the top of FIG. 6, each step of test request (610), test acceptance (620), test progress (630), test approval (640), and test report issuance (650) corresponding to the test process of the inspection data management system. The data record described in may be described in the test report 610-1 as shown at the bottom of FIG. 6 along with the generation of blocks through the blockchain network.

For example, the data entered in the test request step 610 of the test data management system can be written in correspondence with the test requester 610-2 item of the test report 610-1 through data record verification based on blockchain. there is. In addition, the data entered in the test registration step (620) of the test data management system is verified through the blockchain-based data record verification, item name (620-1) and test number (620-2) of the test report (610-1). It can be described correspondingly. In addition, the data entered in the test progress step (630) of the inspection data management system is the decision result (630-1) of the test report (610-1) and the decision date (630-2) through data record verification based on blockchain. , analysis item suitability (630-3), (review) requester (630-4) items can be described correspondingly. In addition, data input in the test approval step 640 of the test data management system may be described corresponding to the reviewer 640-1 and approver 640-2 items of the test report 610-1. In addition, the data entered in the test report issuance step 650 of the test data management system may be described corresponding to the test report issue number (not described) and issue date (not described) of the test report 610-1. However, the predetermined form for the test report here is briefly described to explain the proof of data recording based on the block chain of the present invention, and a test report containing more information can be used in the actual test report. .

On the other hand, the data record verification method based on the cloud blockchain of the present invention can be performed through each of the person in charge's work PCs including the following processors. A data record proof method based on a cloud blockchain according to an example of the present invention can be based on the basic premise that a plurality of authorized PCs access through a cloud blockchain network and configure the same blockchain combination at the same time. there is.

Here, the processor may be configured to process commands of a computer program by performing basic arithmetic, logic, and input/output operations. Instructions may be provided to the processor by means of a storage medium or a communication module. For example, the processor may be configured to execute instructions received according to program codes stored in a recording device such as a storage medium.

Embodiments according to the present invention may be implemented in the form of a computer program that can be executed on a computer through various components, and such a computer program may be recorded on a computer-readable medium. At this time, the medium is a magnetic medium such as a hard disk, a floppy disk and a magnetic tape, an optical recording medium such as a CD-ROM and a DVD, a magneto-optical medium such as a floptical disk, and a ROM hardware devices specially configured to store and execute program instructions, such as RAM, flash memory, and the like.

Meanwhile, the computer program may be specially designed and configured for the present invention, or may be known and usable to those skilled in the art of computer software. An example of a computer program may include not only machine language code generated by a compiler but also high-level language code that can be executed by a computer using an interpreter or the like.

According to one embodiment, the method according to various embodiments of the present disclosure may be included and provided in a computer program product. Computer program products may be traded between sellers and buyers as commodities. A computer program product is distributed in the form of a device-readable storage medium (eg compact disc read only memory (CD-ROM)), or through an application store (eg Play Store™) or between two user devices. It can be distributed (e.g., downloaded or uploaded) directly or online. In the case of online distribution, at least part of the computer program product may be temporarily stored or temporarily created in a device-readable storage medium such as a manufacturer's server, an application store server, or a relay server's memory.

The steps constituting the method according to the present invention may be performed in any suitable order unless an order is explicitly stated or stated to the contrary. The present invention is not necessarily limited according to the order of description of the steps. The use of all examples or exemplary terms (eg, etc.) in the present invention is simply to explain the present invention in detail, and the scope of the present invention is limited due to the examples or exemplary terms unless limited by the claims. it is not going to be In addition, those skilled in the art can appreciate that various modifications, combinations and changes can be made according to design conditions and factors within the scope of the appended claims or equivalents thereof.

Therefore, the spirit of the present invention should not be limited to the above-described embodiments and should not be determined, and all scopes equivalent to or equivalently changed from the claims as well as the claims described below are within the scope of the spirit of the present invention. will be said to belong to

10: Inspection data management system
100: API module
110: Identity verification API
120: Test management API
130: Authentication API
1000: private blockchain network
1010: cloud

Claims (5)

In the data record proof method based on the cloud blockchain,
An inspection data management system including test process data in which a plurality of unit tasks from test preparation to test completion are connected in a predetermined order;
A plurality of block generation nodes that are connected to the inspection data management system through a cloud blockchain network and that generate blocks corresponding to the processed unit tasks and construct a block chain when each unit task is processed; and
a plurality of progress nodes that are connected to the inspection data management system through a cloud blockchain network and do not generate blocks corresponding to the processed unit tasks when each of the unit tasks is processed;
including,
Adding or changing the block generation node and the progress node participating in the cloud blockchain network through an API module executed by a processor executing instructions stored in a memory;
Through the API module executed by the processor executing the instructions stored in the memory, each unit task included in the inspection data management system is mapped to the unit task to be performed at each block generation node, and each other mapping unit tasks to each of the progress nodes;
In accordance with the predetermined order of the test process, when each block generation node processes the mapped unit task, each transaction is generated correspondingly, and when the unit task mapped to each progress node is processed, correspondingly not generating each transaction;
issuing, by a block generation node mapped to a unit task corresponding to the final order of the test process, a test report proving processed data records when the test process is completed; and
Based on the transaction occurrence time, an M-th block in which all the plurality of block generating nodes connected through the cloud blockchain network participate is generated, and if the M-th block is valid, combining the previous N-th block and the M-th block Constructing a block chain; including,
The step of generating the transaction includes generating the data record including the signature of the person in charge of handling the unit task at each step of the test process,
When changing the created data record, it is characterized in that the data correction must be newly accompanied by the signature of the person in charge,
The test report is characterized in that each item for entering the data record corresponding to each step of the test process is included, and issuing the test report is performed at the same time as forming the block chain. It is characterized by automatically inputting corresponding to each item in conjunction with the data record,
The unit tasks performed at the block generation node are:
At least among issuing a test receipt after receiving information related to test reception, issuing a sample label after receiving information related to sample collection, and issuing a test report after receiving information related to a test report is one,
The unit work performed at the progress node is,
at least one of recording data related to test performance, data related to review of test results, and data related to approval of test results;
The unit task performed at the block generation node and the unit task performed at the progress node are distinguished according to the severity of management and whether or not the person in charge is transferred. According to claim 1,
The cloud blockchain network is a private network in which only previously authorized block generation nodes can participate,
Wherein the block generation node is allowed to participate in the cloud blockchain network only when it possesses a public key and a private key issued through an identity verification API. According to claim 1,
The test process,
A method comprising, as the unit task, at least one of test reception, sample collection, test order, tester assignment, test result input, test result review, test approval, test completion, test report issuance, test record reading, and test report authenticity verification . delete According to claim 1,
The API module executed by the processor executing the instructions stored in the memory,
an identity verification API supporting identification of each node on the cloud blockchain network;
a test management API for mapping each of the unit tasks of the inspection data management system with data records in progress nodes, and recording the unit tasks in each progress node and a test process corresponding to the unit tasks; and
Authenticity proof API that supports authenticity proof of the test report or the blockchain;
Further comprising at least one or more APIs of the method.

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