KR20200099460A - System for performing verification of transaction - Google Patents

Abstract

The present invention relates to a system for verifying the integrity of a transaction performed based on a blockchain smart contract. The system comprises: a local server that performs a transaction based on a smart contract; and a main server that verifies the integrity of the transaction performed by the local server at the request of the local server, wherein the main server acquires transaction information corresponding to the request of the local server, acquires information on the smart contract, compares the transaction conditions of the smart contract with the transaction information, and verifies the integrity of the transaction performed by the local server based on the comparison result.

Description

A system to verify the integrity of transactions {SYSTEM FOR PERFORMING VERIFICATION OF TRANSACTION}

The present invention relates to a system for verifying the integrity of transactions performed based on a blockchain smart contract.

Blockchain, also known as a public transaction ledger, is a technology that prevents hacking that can occur when trading with virtual currency. In the case of existing financial companies, transaction records are stored on a centralized server, whereas blockchain sends transaction details to all users participating in transactions, and it is matched with each transaction to prevent data forgery. Have.

For example, blockchain is applied to Bitcoin, a representative online virtual currency. Bitcoin transparently records transaction details in a ledger that anyone can read, and several computers using Bitcoin verify this record every 10 minutes to prevent hacking. Recently, various coins have been developed and provided to solve the shortcomings of bitcoin, and various tokens are functioning as virtual currency with the advent of coins with platform-like functions.

In addition, as various distributed applications (DAPPs) using a virtual currency platform are developed and used, the utilization of the blockchain is increasing.

IoT (Internet of Things) refers to tangible or intangible objects that are connected to each other in various ways to provide new services that have not been previously provided. Not only traditional communication equipment such as computers and mobile phones, but also various objects such as home appliances and daily necessities are given communication and processing functions so that they can perform various functions.

Registered Patent Publication No. 10-1678795, 2016.11.16

The problem to be solved by the present invention is to provide a system for verifying the integrity of transactions performed based on a blockchain smart contract.

The problems to be solved by the present invention are not limited to the problems mentioned above, and other problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

A system for verifying the integrity of a transaction performed based on a blockchain smart contract according to an aspect of the present invention for solving the above-described problem is a local server that performs a transaction based on a smart contract and a request from the local server. , A main server for verifying the integrity of the transaction performed by the local server, the main server, obtaining transaction information corresponding to the request of the local server, obtaining information on the smart contract, and the smart The transaction conditions of the contract are compared with the transaction information, and based on the comparison result, the integrity of the transaction performed by the local server is verified, and the system includes an employee terminal used by an employee in the field, the employee terminal and the short-range wireless A time and attendance management device that performs communication based on communication and obtains the employee's time and attendance information based on the communication result, a work management device that acquires information on the work produced by the employee using one or more sensors, one A work inspection device for inspecting whether the work produced by the employee is defective using the above sensor, a cobot (Co-Operation Robot) that assists the employee's work by performing at least a part of the work performed by the employee, An unmanned transport vehicle including one or more sensors for transporting the work produced by the employee and detecting the loading condition of the transported work, and monitoring the work process of the employee using one or more sensors, and the safety of the employee A safety management device for determining compliance with regulations, and a security management device for monitoring the access of people and goods to the site, and the local server includes the time and attendance management device, work management device, work inspection device, cobot, It communicates with the unmanned transport vehicle, safety management device and security management device, and based on information received from the time and attendance management device, work management device, work inspection device, cobot, unmanned transport vehicle, safety management device and security management device. Control for controlling at least one of the time and attendance management device, work management device, work inspection device, cobot, unmanned transport vehicle, safety management device, and security management device Transmits a signal, stores at least a part of the information received from the time and attendance management device, work management device, work inspection device, cobot, unmanned transport vehicle, safety management device and security management device in the first blockchain, and the time and attendance management Calculate the employee's performance based on information received from the device, the work management device and the work inspection device, determine whether the employee complies with safety regulations based on the information received from the safety management device, and the employee If it is determined that this safety regulation has been violated, the employee's performance is deducted, the cobot's contribution corresponding to the employee's performance is calculated, the employee's performance is adjusted based on the cobot's contribution, and the The employee's performance information is stored in a second blockchain, and a virtual currency generated based on the employee's performance information stored in the second blockchain is provided to the employee terminal as a bonus to the employee, the virtual currency Is available at an affiliate store equipped with a virtual currency management module capable of communicating with the local server, and the issuance value of the virtual currency generated based on the employee's performance information corresponds to the employee's performance. It is calculated to correspond to a predetermined ratio of the net profit that the company managing the site can obtain by selling the work, and when a refund request for the virtual currency is received from the virtual currency management module provided in the affiliated store, the smart Based on the contract, cash corresponding to the issuance value of the virtual currency for which the exchange request was received is paid to the affiliated store, and when a new terminal requests connection to the local server, the third blockchain stores genuine product management information. Based on the verification of whether the new terminal is genuine, if the new terminal is confirmed to be genuine, the connection of the new terminal is permitted, and information on whether the first work is defective from the work inspection device is received, and the When it is determined that the first work is not defective, a genuine product authentication code is given to the first work, and the information on the first work and the genuine product certification code of the first work are stored in the third block. It is stored in person and monitors whether or not to load or unload the work based on the information received from the unmanned transport vehicle, but if the removal of the second work is detected while the unmanned transport vehicle is moving, the second work is unauthorized It is determined that it has been exported, and stores information for canceling the genuine product authentication for the second work in the third blockchain, and based on information received from the security management device, an unauthorized outsider and When it is determined whether or not the article is in or out, and when it is detected that the unauthorized carrying out of the first article is detected, it is determined whether the first article has been taken out by the unmanned transportation vehicle, and the first article is transferred by the unmanned transportation vehicle. When it is not carried out, it is determined whether the first product contains a work product for which genuine product certification has been completed, and if it is determined that the first product contains a third work product for which genuine product certification has been completed, the third product Information for canceling genuine product authentication is stored in the third blockchain, and information on the work process of the employee is obtained based on information received from the work management device and the work inspection device, and When the employee's hourly performance exceeds a preset reference value in one time zone, the first work process of the employee in the first time zone is acquired, and the first work process is transferred to the second block together with information on the employee. When the virtual currency is stored in a chain and the first work process is stored in the second block chain to the employee terminal, and the defect rate of the employee is less than a preset reference value in a specific second time period, the second time period Of obtaining the second work process of the employee, storing the second work process in the second block chain with information on the employee, and storing the second work process in the second block chain. Provides money to the employee terminal, and the local server requests the server to verify the integrity of one or more transaction information performed on the basis of a smart contract in the local server. Upon request, the server performs integrity verification on one or more transaction information received from the local server, and transmits the verification result to the local server.

Other specific details of the present invention are included in the detailed description and drawings.

1 is a diagram illustrating a block chain system according to an embodiment.
2 is a flowchart illustrating an operation of a block chain system according to an embodiment.
3 is a diagram illustrating a system according to an embodiment.
4 is a diagram illustrating a system for verifying the integrity of a transaction performed based on a block chain according to an embodiment.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in a variety of different forms, only the present embodiments are intended to complete the disclosure of the present invention, It is provided to fully inform the technician of the scope of the present invention, and the present invention is only defined by the scope of the claims.

The terms used in the present specification are for describing exemplary embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used in the specification, “comprises” and/or “comprising” do not exclude the presence or addition of one or more other elements other than the mentioned elements. Throughout the specification, the same reference numerals refer to the same elements, and “and/or” includes each and all combinations of one or more of the mentioned elements. Although "first", "second", and the like are used to describe various elements, it goes without saying that these elements are not limited by these terms. These terms are only used to distinguish one component from another component. Therefore, it goes without saying that the first component mentioned below may be the second component within the technical idea of the present invention.

Unless otherwise defined, all terms (including technical and scientific terms) used in the present specification may be used as meanings that can be commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in a commonly used dictionary are not interpreted ideally or excessively unless explicitly defined specifically.

The term "unit" or "module" used in the specification refers to a hardware component such as software, FPGA or ASIC, and the "unit" or "module" performs certain roles. However, "unit" or "module" is not meant to be limited to software or hardware. The “unit” or “module” may be configured to be in an addressable storage medium, or may be configured to reproduce one or more processors. Thus, as an example, "sub" or "module" refers to components such as software components, object-oriented software components, class components, and task components, processes, functions, properties, It includes procedures, subroutines, segments of program code, drivers, firmware, microcode, circuits, data, databases, data structures, tables, arrays and variables. Components and functions provided within "sub" or "module" may be combined into a smaller number of components and "sub" or "modules" or into additional components and "sub" or "modules". Can be further separated.

Spatially relative terms "below", "beneath", "lower", "above", "upper", etc., as shown in the figure It can be used to easily describe the correlation between a component and other components. Spatially relative terms should be understood as terms including different directions of components during use or operation in addition to the directions shown in the drawings. For example, if a component shown in a drawing is turned over, a component described as "below" or "beneath" of another component will be placed "above" the other component. I can. Accordingly, the exemplary term “below” may include both directions below and above. Components may be oriented in other directions, and thus spatially relative terms may be interpreted according to orientation.

In the present specification, a computer refers to all kinds of hardware devices including at least one processor, and may be understood as encompassing a software configuration operating in a corresponding hardware device according to embodiments. For example, the computer may be understood as including all of a smartphone, a tablet PC, a desktop, a laptop, and a user client and an application running on each device, but is not limited thereto.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a block chain system according to an embodiment.

Referring to FIG. 1, block chain holding servers 10, local servers 20, and user terminals 30 are shown.

In the disclosed embodiment, each of the user terminals 30 records transaction details based on a preset rule, and the recorded transaction details are recorded in each block and propagated to the blockchain holding servers 10, respectively. Stored and managed on the server.

In the disclosed embodiment, the blockchain holding servers 10 refer to servers equipped with a blockchain for authenticating and recording transaction information. In one embodiment, the transaction information may refer to transaction information based on virtual currency, but may refer to information on various events performed based on the blockchain, and such transaction information is Is saved.

The virtual currency according to the disclosed embodiment is understood as a concept collectively referring to all kinds of non-real money whose transaction details are managed through a block chain such as electronic money and cryptocurrency.

The cryptocurrency according to the disclosed embodiment may be a cryptocurrency in the form of a coin managed by a separate mainnet and managed accordingly, or may be a cryptocurrency in the form of a token that utilizes the infrastructure of other coins such as the Ethereum network. Not limited.

In one embodiment, the virtual currency paid to each of the user terminals 30 is managed by the local server 20 as already generated or issued, and can be paid according to the transaction details of each of the user terminals 30. have.

For example, the local server 20 may perform an operation to generate a block for storing transaction details occurring between the user terminals 30 and generate a block through Proof Of Work. According to an embodiment, the local server 20 may receive a predetermined virtual currency generated in return and distribute it to the user terminals 30 according to the transaction details of the user terminals 30.

In one embodiment, as the transaction details are recorded by each of the user terminals 30, a virtual currency is generated according to a preset rule and can be paid to the user terminals 30, which is then mined (mining) ).

In general, cryptocurrency mining is performed by one of the following methods: Proof Of Work (POW), Proof Of Stake (POS), and Proof Of Importance (POI). The above-described methods are one of the distributed summation algorithms used to guarantee the reliability of a distributed system.

In the disclosed embodiment, a transaction between user terminals 30 and a method of paying virtual currency accordingly are performed by a smart contract.

2 is a flowchart illustrating an operation of a block chain system according to an embodiment.

Referring to FIG. 2, operations of the blockchain holding servers 10, the local server 20, and the user terminal 31 shown in FIG. 1 are illustrated.

The local server 20 shown in FIG. 2 is a server of a communication company through which the user terminal 31 communicates with the blockchain holding servers 10 or a local server connected to the user terminal 31, or a user terminal 31 ) May mean a server that manages the blockchain-based service used by the user, but the local server 20 may be omitted, and the user terminal 31 directly communicates with the blockchain holding servers 10 to achieve complete decentralization. You can even build a system.

2 is for an example of a configuration used in a general blockchain-based service, and the form of a system using the blockchain technology is not limited thereto.

In one embodiment, the user terminal 31 provides information to the local server 20, and the local server 20, if the information is information to be stored in the blockchain, to the blockchain holding servers 10 You can provide that information. Blockchain holding servers 10 can store the corresponding information in the blockchain, and in this process, verification of the information based on the blockchain can be performed. In this case, only information that has been successfully verified can be recorded on the blockchain.

In addition, when there is information that needs to be verified, the user terminal 31 may provide the information to the local server 20. In this case, the local server 20 can verify this based on the information stored in the block chain. In this process, the local server 20 obtains information for verifying the information from the blockchain holding servers 10. And, accordingly, verification can be performed. The local server 20 may provide the verification result to the user terminal 31 or provide a service to the user terminal 31 based on the verification result.

Unlike the existing centralized server-based system, this blockchain system has the advantage of providing higher security by providing a decentralized distributed processing system and providing reliability that cannot be manipulated by a specific subject.

In addition, since it functions as a platform that can provide various blockchain-based applications in recent years, its utilization is expected to increase further.

3 is a diagram illustrating a system according to an embodiment.

In an embodiment, the system shown in FIG. 3 may be an artificial intelligence IIoT (Industrial Internet of Things) system for implementing a smart factory based on a blockchain, but is not limited thereto.

For example, the system shown in FIG. 3 may be an artificial intelligence IoT (Internet of Things) system based on a blockchain, but is not limited thereto.

Referring to FIG. 3, the system includes an employee terminal 200 used by employees in the field. The employee terminal 200 may be a smartphone used by the employee, but is not limited thereto.

Referring to FIG. 3, the system includes a time and attendance management apparatus 300 for performing communication based on short-range wireless communication with the employee terminal and obtaining time and attendance information of the employee based on the communication result.

For example, the time and attendance management device 300 may perform communication with the employee terminal 200 including a beacon terminal, and obtain information on the employee's commuting and leaving, whether or not to take a break, etc., but is limited thereto. It does not become.

Referring to FIG. 3, the system includes a work management device 400 for acquiring information on a work produced by the employee using one or more sensors.

For example, the work management device 400 captures an image of an employee's work based on the imaging sensor, or includes one or more motion sensors or distance sensors capable of recognizing the movement of the produced work to complete the work and You can also recognize movement.

In one embodiment, the work management device 400 obtains an employee's work image, the local server 100 segments the employee's work image into a plurality of work motions, and divides the work image of the employee into a plurality of work motions. It can be converted to a work process that includes. In an embodiment, the job of segmenting an employee's work image may be performed by a previously learned artificial intelligence model. For example, an employee's work image can be classified (segmented) into a plurality of work motions based on the position and movement direction of the employee's hand or the tool used by the employee, and the change in the direction, movement and shape of the work accordingly. However, it is not limited thereto.

Referring to FIG. 3, the system includes a work inspection device 500 that inspects whether or not a work produced by the employee is defective using one or more sensors.

For example, the work inspection device 500 may inspect whether or not a finished work is defective using an imaging sensor or other non-destructive means. Defects of the work may be determined based on the comparison of the shape of the work with a preset reference shape and whether or not scratches or foreign substances are included on the surface or inside of the work, but is not limited thereto.

3, the system includes a cobot (Co-Operation Robot) 600 that assists the employee's work by performing at least a part of the work performed by the employee.

For example, the cobot 600 may assist at least a part of an employee's work motion or may perform a role of substituting an operation that is difficult for an employee to perform.

The cobot 600 may be trained to perform all work operations that the employee can perform, but some work operations may be performed only by an employee other than the cobot 600, and likewise, the employee is a cobot 600 ) May be able to perform all work operations that can be performed, but the cobot 600 may perform some work operations that an employee cannot perform.

In one embodiment, the cobot 600 determines the work status of an employee based on information received from the work management device 400 or the work inspection device 500, and determines that the work is delayed at a specific work stage. If so, you can assist in the work.

In one embodiment, the cobot 600 performs a task to correct the task when it is determined that an employee is doing an incorrect task based on information received from the task management device 400 or the task inspection device 500 can do.

In one embodiment, the cobot 600 is based on information received from the work management device 400 or the work inspection device 500, if it is determined that the employee is doing the wrong work, the state of the work that the employee is working on. Is determined through the work inspection device 500, and when it is determined that the work is defective, the work of the corresponding employee may be stopped and the work of the defective work may be moved to the disposal line.

Referring to FIG. 3, the system includes an unmanned transport vehicle 700 including one or more sensors for transporting the work produced by the employee and detecting the loading state of the transported work.

The unmanned transport vehicle 700 may operate inside and outside the site including an automatic driving function, or may move through a preset route or rail. The unmanned transport vehicle 700 includes one or more sensors that can determine the loading and unloading of the work, and the unmanned transport vehicle 700 can determine the number of the loaded work, and the loaded work is normally unloaded. Or, it can be detected that it is taken out without permission.

In one embodiment, a code may be printed or a beacon, NFC, RF terminal, or the like may be attached to the finished work or its package. The unmanned transport vehicle 700 scans a printed code or communicates with a beacon, NFC, or RF terminal to obtain information on the loaded workpiece, and similarly, for a workpiece deviating from the unmanned transport vehicle 700 Information can also be obtained.

In one embodiment, the finished work moves along the conveyor belt, and the final inspection is performed by the work inspection device 500, and when the inspection result is determined to be a defective work, the screen provided at the end of the conveyor belt is controlled. The workpiece can be moved to the conveying conveyor belt.

In addition, when it is determined that there is no defect as a result of the inspection, the work can be moved to the conveyor belt directed to the unmanned transport vehicle 700 or the unmanned transport vehicle 700 through the control of the shield provided at the end of the conveyor belt.

For example, the screen may include all kinds of means for controlling the direction of movement of the workpiece between different conveyor belts.

In one embodiment, the work delivered through the conveying conveyor belt is transferred to the line on which the work was worked, and the local server 100 can obtain information on the employee who performed the wrong process on the line from the database. have.

The local server 100 may provide a notification to the employee terminal 200 of the corresponding employee, and may also transmit the work and the contents of the problem to the employee terminal 200.

In this case, the employee can correct the defect if the returned product is returned to him, and if there is a defect that cannot be corrected, remove it from the line and send it to the local server 100 through the employee terminal 200. You can transmit that fact.

The local server 100 may reflect the defects that have occurred and whether or not the defects are corrected in the calculation of the performance of the corresponding employee.

Referring to FIG. 3, the system includes a safety management device 800 that monitors the work process of the employee using one or more sensors and determines whether the employee observes safety regulations.

For example, the safety management apparatus 800 may photograph an employee's work motion using an imaging sensor, and determine whether there is an operation that violates safety regulations among each work operation.

As another example, the safety management device 800 includes a communication module capable of communicating with a work tool used by an employee, and it is confirmed that the employee does not use some safety tools, or the employee omits some work operations. You can make judgments about whether you are acting out of the way.

Referring to FIG. 3, the system includes a security management device 900 that monitors the access of people and articles to the site.

For example, the security management device 900 can monitor the access of people and goods through the entrance to the site using one or more sensors, and at the same time communicate with the communication module provided in the person or goods to You can check whether the article is a person or article previously authorized.

3, the system includes the time and attendance management device 300, a work management device 400, a work inspection device 500, a cobot 600, an unmanned transport vehicle 700, a safety management device 800, and security. It communicates with the management device 900, and the time and attendance management device 300, the work management device 400, the work inspection device 500, the cobot 600, the unmanned transport vehicle 700, the safety management device 800 ) And the information received from the security management device 900, the time and attendance management device 300, the work management device 400, the work inspection device 500, the cobot 600, the unmanned transport vehicle 700, the safety And a local server 100 for transmitting a control signal for controlling at least one of the management device 800 and the security management device 900.

In one embodiment, the local server 100, the time and attendance management device 300, a work management device 400, a work inspection device 500, a cobot 600, an unmanned transport vehicle 700, a safety management device At least a part of the information received from 800 and the security management device 900 is stored in the first blockchain.

In the disclosed embodiment, the blockchain can be understood as a technology for storing information based on a distributed ledger, and storing information in the blockchain means that the information is propagated and stored in all terminals storing the blockchain. It can be, but is not limited thereto.

In one embodiment, the local server 100 may calculate the employee's performance based on information received from the time and attendance management device 300, the work management device 400, and the work inspection device 500. .

For example, in calculating an employee's performance, the employee's attendance and attendance, the amount of work produced by the employee during the employee's working hours, and whether each work is defective may be considered.

In one embodiment, the local server 100 determines whether the employee complies with the safety regulations based on information received from the safety management device 800, and when it is determined that the employee violates the safety regulations, the Employee performance can be deducted.

For example, in order to prevent an employee from violating safety regulations to prevent a safety accident from occurring in order to increase his/her performance, the local server 100 may deduct the performance of an employee who violated the safety regulations.

In an embodiment, the local server 100 may calculate a contribution degree of the cobot 600 corresponding to the employee's performance, and adjust the employee's performance based on the contribution degree of the cobot 600.

For example, when the cobot 600 performs 30% of the employee's work process, the local server 100 may recognize 70% of the employee's performance as the employee's actual performance.

In one embodiment, the local server 100 stores the employee's performance information in a second blockchain.

In an embodiment, the local server 100 may provide a virtual currency generated based on the employee's performance information stored in the second block chain to the employee terminal as a bonus to the employee.

In the disclosed embodiment, the virtual currency is characterized in that it can be used at an affiliate store equipped with a virtual currency management module capable of communicating with the local server 100. In other words, virtual currency can be used with the same value as real money in the field and in the local community around the site.

In one embodiment, the issuance value of the virtual currency generated based on the employee's performance information is based on a predetermined percentage of the net revenue that the company managing the site can obtain by selling the work corresponding to the employee's performance. It can be calculated to correspond.

In other words, the minimum cash value (i.e., issuance value) for the virtual currency can be set by making a certain percentage of the profits that the company can obtain according to the employee's performance correspond to the value of the virtual currency.

In one embodiment, the local server 100 receives cash corresponding to the issuance value of the virtual currency from which the virtual currency is received from the virtual currency management module provided in the affiliate store. It is paid to the above affiliated stores.

That is, by ensuring the issuance value of virtual currency provided by companies through the local server 100 to a minimum, it is possible to stably use virtual currency in local communities.

Depending on the embodiment, the market value of the virtual currency may exceed the issuance value, but according to the disclosed embodiment, even if the market value of the virtual currency decreases, it is possible to provide a supporting means to prevent it from falling below the issuance value.

In one embodiment, when a new terminal requests connection to the local server 100, the local server 100 checks whether the new terminal is genuine based on a third block chain storing genuine product management information, When it is confirmed that the new terminal is genuine, the connection of the new terminal may be permitted.

That is, when a new terminal is to be added to the IoT network, the local server 100 may allow it after confirming whether the terminal is genuine based on the blockchain.

In one embodiment, the local server 100 receives information on whether the first work is defective or not from the work inspection device, and when it is determined that the first work is not defective, the local server 100 An authentication code may be assigned, and information on the first work and a genuine product authentication code of the first work may be stored in the third blockchain.

For example, the local server 100 may perform genuine product authentication for a normal work that is not defective, and may store it in a third blockchain to prevent forgery and alteration of the corresponding information. The genuine product authentication code may be written on the product or the package of the product, and it may be encrypted or provided through link information, but is not limited thereto.

In one embodiment, the local server 100 monitors whether or not to load or unload a work piece based on information received from the unmanned transport vehicle, but when the unmanned transport vehicle is moving, the second workpiece is detected, the It is determined that the second work has been carried out without permission, and information for canceling genuine product authentication for the second work may be stored in the third blockchain.

That is, when some products are stolen or leaked during the transportation process, a means for canceling genuine product authentication so that the product is not distributed as genuine may be provided in the local server 100.

In one embodiment, the local server 100 determines whether unauthorized outsiders and items enter the site based on information received from the security management device, and detects unauthorized carrying out of the first item. In this case, it is determined whether the first product has been carried out by the unmanned transport vehicle, and if the first item has not been carried out by the unmanned transport vehicle, the first product includes a work product for which genuine product authentication has been completed. It is determined whether there is a product, and if it is determined that the first product contains a third work product for which genuine product certification has been completed, information for canceling the product certification for the third work is stored in the third block chain. .

For example, the local server 100 may provide a means for canceling genuine product certification for a product that has been carried out without permission in order to prevent the product for which genuine product certification is completed from being leaked and distributed.

For example, it is possible to prevent the case of distributing a product that has been genuinely certified at the consignment production site by carrying it out through a separate route instead of delivering it through an unmanned transport vehicle that is a preset normal route.

In one embodiment, the unmanned transport vehicle 700 may be set to transport the work to a predetermined location according to a delivery target and a preset program regardless of the intention of a local employee. Accordingly, when an employee carries out a work without using the unmanned transport vehicle or removes the work from the unmanned transport vehicle 700 without permission, it is possible to cancel the genuine product authentication.

In an embodiment, the unmanned transport vehicle 700 may be provided with an outlet through which the work can be carried out, and a guide means for guiding the work carried out from the carrying out may be further provided.

In one embodiment, a delivery target transport vehicle that transports the work carried out from the unmanned transport vehicle 700 may be further included in the system, and the delivery target transport vehicle may be provided with a loading port for loading the work. In addition, a guide means for guiding the work to the loading port may be further provided.

In one embodiment, the guide means provided at the carrying-out port of the unmanned transport vehicle 700 and the guide means provided at the loading port of the transport vehicle to be delivered may include a connecting means configured to engage with each other, and are engaged with each other in the connecting means. The shape of the part may be configured to take a predetermined shape, so that it is impossible to move the work between the unscheduled unmanned transport vehicle 700 and the transport vehicle to be delivered.

When the work is not carried out or moved through the unmanned transport vehicle 700, the unmanned transport vehicle 700 may recognize this as unauthorized carrying and transmit information to the local server 100.

In one embodiment, portions of the connecting means that engage with each other may be configured in the form of a plurality of disassembled and combined blocks so that they can be changed into different shapes. In one embodiment, the unmanned transport vehicle 700 acquires information from a delivery target (ie, a company to be delivered) at a predetermined period, and based on the obtained information, the shape of the part that interlocks with each other in the connecting means can be changed. I can.

In an embodiment, information on the shape of the interlocking parts may be exchanged based on the smart contract of the blockchain. For example, when an unmanned transport vehicle 700 requests an exchange of predetermined shape information based on a smart contract of a blockchain, the corresponding shape information is generated based on the smart contract, and the generated shape information is The predetermined form information that is transmitted to the unmanned transport vehicle 700 and requested for exchange by the unmanned transport vehicle 700 can be transmitted to the transport vehicle to be delivered, and vice versa.

For example, portions of the connecting means engaged with each other may be composed of one or more rod members capable of changing the height. In this case, the height of each rod member may be changed by the power means, for example, according to control, it may protrude to a predetermined height from the surface of the connecting means, or may be depressed to a predetermined depth.

Accordingly, when taking the first rod member and the second rod member respectively disposed at positions engaged with each other in the connecting means of the unmanned transport vehicle 700 and the transport vehicle to be delivered, if the first rod member protrudes 5 cm, The second rod member may have to be recessed by 5 cm. This may be commonly performed in a plurality of rod members provided on the connecting means, and a sensing means for sensing mutual contact may be included at one point on the surface of the connecting means. For example, the sensing means may be an electrode, and when the heights of the plurality of rod members provided in the connection means are all matched and the sensing means provided on both sides of the connection means contact each other, the movement of the workpiece is initiated through signal transmission through the electrode. Can be configured to

Therefore, the unmanned transport vehicle 700 and the transport vehicle to be delivered deliver the work through a connection means of a predetermined form, and accordingly, if the information is not known or the unmanned transport vehicle 700 is not possessed. By preventing the work from being carried out, it is possible to prevent the work from being carried out and maintain security.

In one embodiment, the local server 100 collects information on changes in the employee's performance according to a change in the cobot's contribution, and stores information on changes in the maintenance cost of the cobot and change information on the employee's bonus according to the change in the cobot's contribution. It collects and trains an artificial intelligence model using the collected information as training data.

In an embodiment, the artificial intelligence model may mean a model learned based on machine learning, but is not limited thereto.

In one embodiment, the local server 100 obtains selection information on the operation mode of the cobot, but the operation mode of the cobot includes a first mode, a second mode, and a third mode, and the first mode is When selected, using the artificial intelligence model to obtain a first contribution degree of the cobot whose performance of the employee is the maximum, obtain a first operation process of the cobot corresponding to the first contribution degree, and the first The cobot can be controlled based on the operation process.

In one embodiment, when the second mode is selected, the local server 100 calculates a second contribution of the cobot at which the sum of the maintenance cost of the cobot and the bonus of the employee is minimum, using the artificial intelligence model. It is possible to obtain, obtain a second operation process of the cobot corresponding to the second contribution degree, and control the cobot based on the second operation process.

In an embodiment, when the third mode is selected, the local server 100 uses the artificial intelligence model to maximize the employee's performance compared to the sum of the maintenance cost of the cobot and the employee's bonus. A third contribution degree of the cobot may be obtained, a third operation process of the cobot corresponding to the third contribution degree may be obtained, and the cobot may be controlled based on the third operation process.

In one embodiment, the employee terminal 200 acquires one or more design layouts applicable to the first virtual currency obtained from the local server, and applies the design layout to the first virtual currency A virtual currency image is obtained, and the first virtual currency image may include encrypted information on the first virtual currency.

In one embodiment, the local server 100, when the information obtained by scanning the first virtual currency image from the virtual currency management module of the affiliate store is received, the first virtual currency encrypted from the first virtual currency image It is possible to obtain information on, verify the first virtual currency, and transmit the verification result of the first virtual currency to the virtual currency management module of the affiliate store.

That is, the virtual currency may be used as such, but may be generated as a virtual currency image based on a design layout for aesthetic purposes or convenience of use.

In this case, the virtual currency management module of the affiliated store may request integrity verification by scanning it and transmitting the scanned information to the local server 100. When verification is completed from the local server 100, the virtual currency management module may proceed with payment by recognizing the value corresponding to the virtual currency.

In one embodiment, the employee terminal 200 generates a first design layout that can be applied to the virtual currency, but the first design layout is used in a means for encrypting one or more image information and information on the virtual currency. It may include information on means for combining information on the encrypted virtual currency and information on the encrypted virtual currency with the one or more images.

For example, the information on the means to be encrypted may include information on the encryption algorithm, and the information on the means for combining the information on the encrypted virtual currency with the image, information on the encrypted virtual currency is inserted. It may contain information on the location to be performed, information on a means for combining image and information based on cryptography, and information for combining with an image in the form of a QR code or barcode. May be, and this is not limited.

In one embodiment, the virtual currency image generated based on the first design layout is a combination indicating a means for indicating a direction of the virtual currency image and a means in which information about the encrypted virtual currency is combined with the virtual currency image It may include a means display unit and a decryption means display unit for displaying means for decrypting information on the encrypted virtual currency.

In this case, the virtual currency management module or the local server 100 may first recognize the instruction unit, the combining means display unit, and the decryption unit display unit, obtain the information, and then sequentially obtain the virtual currency information from the virtual currency image. .

In an embodiment, the local server 100 may obtain information on the work process of the employee based on information received from the work management device 400 and the work inspection device 500.

In one embodiment, when the hourly performance of the employee in a specific first time period exceeds a preset reference value, the local server 100 acquires the first work process of the employee in the first time period, and the first operation A process may be stored in the second blockchain along with information on the employee, and virtual currency by storing the first work process in the second blockchain may be provided to the employee terminal.

In one embodiment, the local server 100 acquires the second work process of the employee in the second time period when the defect rate of the employee is less than a preset reference value in a specific second time period, and performs the second work process in the second time period. It is possible to provide a virtual currency to the employee terminal by storing information on the employee in the second block chain and storing the second work process in the second block chain.

In one embodiment, the local server 100 searches the second block chain before storing the first work process in the second block chain, and a work process similar to the first work process is equal to or greater than a preset reference value. You can check whether it is saved or not.

In one embodiment, when a third work process similar to the first work process and a preset reference value or more is stored in the second block chain, the local server 100 is configured with the third work process and the first work process. At least one first difference can be derived by comparing.

In an embodiment, the local server 100 may determine whether the first difference is significant.

For example, the local server 100 compares the hourly performance of the third work process and the first work process, and there is a difference greater than or equal to a preset reference value between the hourly performance of the third work process and the first work process. In this case, information on the first difference may be stored in the second blockchain.

In addition, the local server 100 searches the second block chain before storing the second work process in the second block chain, and determines whether or not a work process similar to the second work process and a preset reference value or more is stored. I can confirm.

In one embodiment, when a fourth work process similar to the second work process and a preset reference value or more is stored in the second blockchain, the local server 100 performs the fourth work process and the second work process. By comparison, at least one second difference can be derived.

In an embodiment, the local server 100 may determine whether the second difference is significant.

For example, the local server 100 compares the hourly performance of the fourth work process and the second work process, and there is a difference between the fourth work process and the second work process failure rate, which is greater than a preset reference value. In this case, information on the second difference may be stored in the second blockchain.

In one embodiment, when the first difference or the second difference is stored in the second block chain, the local server 100 provides a virtual currency corresponding to the first difference or the second difference to the employee terminal. Can provide.

In one embodiment, when the first employee corresponding to the third work process or the fourth work process is different from the employee corresponding to the first work process or the second work process, the local server 100 1 A certain virtual currency can be provided to the employee's employee terminal.

That is, when the first employee corresponding to the third work process or the fourth work process is the same as the employee corresponding to the first work process or the second work process, only the virtual currency for the difference is paid to the employee. However, in different cases, the contribution of an employee who has registered a similar prerequisite process can also be recognized and a predetermined virtual currency can be provided to the employee.

4 is a diagram illustrating a system for verifying the integrity of a transaction performed based on a block chain according to an embodiment.

Referring to FIG. 4, the system includes a local server 100, a transaction target terminal 1, and a main server 1000.

In one embodiment, the local server 100 performs a transaction with a predetermined transaction target terminal 1, but the transaction may be performed based on a smart contract of a blockchain.

In the present specification, a smart contract means that a transaction is performed according to a condition previously stored in the block chain, and for example, when a transaction request that satisfies a previously stored condition is obtained, it may mean automatically performing a transaction. In addition, transactions that are automatically performed are performed according to the conditions previously stored in the blockchain.

For example, the transaction target terminal 1 may mean a virtual currency management module provided in the above-described affiliate store. When a request for currency exchange for virtual currency is obtained from the transaction target terminal 1, the above-described blockchain holding servers or the local server 100 may automatically perform a currency transaction according to the pre-stored smart contract conditions.

For example, the condition of a smart contract is that when a request for currency exchange for a virtual currency is received from a previously stored (or authenticated) transaction target terminal (1), the integrity of the virtual currency is verified, and the previously stored exchange rate or a predetermined standard Based on the exchange rate information obtained according to the exchange rate information, the local server 100 automatically generates currency exchange information, stores the generated currency exchange information in the blockchain, and transmits the exchange information to the local server 100 so that the local server 100 accordingly (1) may include a process of performing remittance, but is not limited thereto.

Likewise, the process of paying employees with virtual currency generated based on employee performance information can also be performed based on smart contracts.

For example, if the transaction target terminal (1) is an employee terminal 200 or a terminal that calculates employee performance, the transaction target terminal (1) performs a virtual currency payment request based on the employee's performance information, and The holding servers or the local server 100 may automatically pay virtual currency according to the condition of a smart contract that is stored in advance.

Similarly, when the performance information uploaded from the transaction target terminal 1 satisfies a predetermined condition, information for paying a virtual currency corresponding to the performance information may be stored in the blockchain as smart contract information.

Therefore, the transaction target terminal 1 uploads a virtual currency payment request including performance information, automatically calculates the amount of virtual currency payment according to preset conditions based on the corresponding smart contract, and pays the virtual currency. Can be done.

In an embodiment, the local server 100 may request the main server 1000 to verify the integrity of such a transaction.

The main server 1000 may verify the integrity of a transaction performed by the local server 100 at the request of the local server 100.

In an embodiment, the main server 1000 may acquire transaction information corresponding to the request of the local server. Also, the main server 1000 may obtain information on a smart contract corresponding to the request of the local server 100.

The main server 1000 may compare the transaction conditions of the smart contract with the transaction information performed by the local server 100, and verify the integrity of the transaction performed by the local server 100 based on the comparison result.

For example, when the main server 1000 acquires the transaction conditions of the smart contract and substitutes the transaction information performed by the local server 100 into the transaction conditions of the smart contract, the transaction information and the transaction information performed by the local server 100 You can check whether they match.

If the transaction information performed by the local server 100 and the result of substituting the transaction information performed by the local server 100 in the transaction conditions of the smart contract are different, the local server 100 may determine that there is a problem with the transaction. I can.

In an embodiment, the main server 1000 may verify the integrity of the transaction condition of the smart contract.

For example, the main server 1000 may acquire a preset simulation transaction information database.

The main server 1000 may substitute transaction information based on the simulation transaction information database into the transaction conditions of the smart contract, and compare the substitution result with the result stored in the database.

In one embodiment, when the result of substituting the result of the comparison result and the simulation transaction information stored in the database into the transaction condition of the smart contract is different by more than a preset reference value, the main server 1000 determines that there is a problem with the transaction condition of the smart contract. can do.

In an embodiment, the local server 100 may request the main server 1000 to verify the integrity of the smart contract used in the system according to the disclosed embodiment and transaction information performed based on the smart contract.

The main server 1000 may perform integrity verification based on a request and transmit the result of the execution to the local server 100.

When the local server 100 acquires information that there is a problem with the smart contract or transaction information, the local server 100 may stop the transaction based on the smart contract.

According to the disclosed embodiment, there is an advantage of adding safety to the convenience of a smart contract by verifying the integrity of transactions performed based on a block chain.

The steps of a method or algorithm described in connection with an embodiment of the present invention may be implemented directly in hardware, implemented as a software module executed by hardware, or a combination thereof. Software modules include Random Access Memory (RAM), Read Only Memory (ROM), Erasable Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), Flash Memory, hard disk, removable disk, CD-ROM, or It may reside on any type of computer-readable recording medium well known in the art to which the present invention pertains.

Components of the present invention may be implemented as a program (or application) and stored in a medium in order to be executed in combination with a computer that is hardware. Components of the present invention may be implemented as software programming or software elements, and similarly, embodiments include various algorithms implemented with a combination of data structures, processes, routines or other programming components, including C, C++ , Java, assembler, etc. may be implemented in a programming or scripting language. Functional aspects can be implemented with an algorithm running on one or more processors.

In the above, embodiments of the present invention have been described with reference to the accompanying drawings, but those of ordinary skill in the art to which the present invention pertains can be implemented in other specific forms without changing the technical spirit or essential features. You can understand. Therefore, the embodiments described above are illustrative in all respects, and should be understood as non-limiting.

100: local server
200: employee terminal
300: time and attendance management device
400: work management device
500: work inspection device
600: cobot
700: unmanned transport vehicle
800: safety management device
900: security management device

Claims (1)

In a system that verifies the integrity of transactions performed based on a blockchain smart contract,
A local server that performs transactions based on smart contracts; And
A main server for verifying the integrity of a transaction performed by the local server according to the request of the local server; Including,
The main server,
Acquire transaction information corresponding to the request of the local server,
Acquire information on the smart contract,
Compare the transaction conditions of the smart contract with the transaction information,
Based on the comparison result of the transaction condition of the smart contract and the transaction information, verify the integrity of the transaction performed by the local server,
The system,
Staff terminal used by on-site staff;
A time and attendance management device for performing communication based on short-range wireless communication with the employee terminal and obtaining time and attendance information of the employee based on a communication result;
A work management device that acquires information on a work produced by the employee by using one or more sensors;
A work inspection device for inspecting whether the work produced by the employee is defective using one or more sensors;
A cobot (Co-Operation Robot) that assists the employee's work by performing at least a portion of the work performed by the employee;
An unmanned transport vehicle including one or more sensors for transporting the work produced by the employee and detecting a loading state of the transported work;
A safety management device that monitors the work process of the employee using one or more sensors and determines whether the employee observes safety regulations; And
A security management device that monitors the access of people and goods to the site; Including more,
The local server,
It communicates with the time and attendance management device, work management device, work inspection device, cobot, unmanned transport vehicle, safety management device and security management device, and the time and attendance management device, work management device, work inspection device, cobot, unmanned transport vehicle , A control signal for controlling at least one of the time and attendance management device, work management device, work inspection device, cobot, unmanned transport vehicle, safety management device and security management device based on information received from the safety management device and the security management device. Send,
At least a part of information received from the time and attendance management device, work management device, work inspection device, cobot, unmanned transport vehicle, safety management device and security management device is stored in a first blockchain,
Calculate the performance of the employee based on information received from the time and attendance management device, the work management device and the work inspection device,
Based on the information received from the safety management device, it is determined whether the employee complies with the safety regulations, and if the employee is judged to have violated the safety regulations, the employee's performance is deducted,
Calculate the contribution of the cobot corresponding to the performance of the employee, adjust the performance of the employee based on the contribution of the cobot,
The employee's performance information is stored in a second blockchain, and virtual currency generated based on the employee's performance information stored in the second blockchain is provided to the employee terminal as a bonus to the employee, Currency is characterized in that it can be used at affiliated stores equipped with a virtual currency management module capable of communicating with the local server, and the issuing value of virtual currency generated based on the employee's performance information corresponds to the employee's performance It is calculated to correspond to a predetermined percentage of the net profit that the company managing the site can obtain by selling the work to be done,
When a refund request for the virtual currency is received from the virtual currency management module provided in the affiliate store, based on a smart contract, cash corresponding to the issuance value of the virtual currency for which the currency request was received is paid to the affiliate store,
When a new terminal requests connection to the local server, it checks whether the new terminal is genuine based on a third block chain that stores genuine product management information, and if the new terminal is confirmed to be genuine, the new terminal Allow the connection,
Receives information about whether a first work is defective or not from the work inspection device, and when the first work is a normal work, a genuine product authentication code is assigned to the first work, and information on the first work And storing the genuine product authentication code of the first work in the third blockchain,
Based on the information received from the unmanned transport vehicle, the loading and unloading of the work is monitored, but when the unmanned transport vehicle is moving and the removal of the second work is detected, it is determined that the second work has been carried out without permission And, storing information for canceling genuine product authentication for the second work in the third blockchain,
Based on the information received from the security management device, it is determined whether unauthorized outsiders and articles are entering the site, and when the unauthorized carrying out of the first article is detected, the first article is the unmanned transport vehicle Determine whether or not the first product has been carried out by the unmanned transport vehicle, determine whether the first product contains a work product that has been genuinely certified, and the first product When it is determined that the third work product for which genuine product certification has been completed is included, information for canceling the product certification for the third work is stored in the third blockchain,
If information on the work process of the employee is obtained based on information received from the work management device and the work inspection device, and the hourly performance of the employee in a specific first time period exceeds a preset reference value, the first By acquiring the first work process of the employee in a time zone, storing the first work process together with information on the employee in the second blockchain, and storing the first work process in the second blockchain When the virtual currency is provided to the employee terminal and the defect rate of the employee is less than a preset reference value in a specific second time period, the employee obtains a second work process of the employee in the second time period, and the second work process is transferred to the employee. Stored in the second block chain along with information on, and provide virtual currency according to storing the second work process in the second block chain to the employee terminal,
The employee terminal,
Obtaining one or more design layouts applicable to the virtual currency obtained from the local server, applying the design layout to the virtual currency to obtain a virtual currency image, and the virtual currency image for the encrypted virtual currency Contain information,
The local server,
The local server requests the server to verify the integrity of one or more transaction information performed based on the smart contract,
The server,
Performing integrity verification on one or more transaction information received from the local server, and transmitting the verification result to the local server,
system.

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