KR102057390B1 - Digital money mining system and method using internet of things - Google Patents

Abstract

Disclosed are a digital currency mining system and method using the Internet of Things (IoT) that anyone can easily mine and acquire digital currency. Such a digital money mining system includes a mining management server and at least one mining device. The mining management server receives information on an arbitrary task for mining the digital currency from the digital currency system, and then divides the received task to generate at least one partial task, respectively. The mining device receives information on any one of the partial jobs from the mining management server, respectively, and performs each of the received jobs among the partial jobs using the generated driving power. As such, as the mining device does not use the power already stored in the battery, but performs the task assigned to itself by using the driving power generated by itself, anyone can easily mine and acquire digital money without worrying about power consumption. can do.

Description

DIGITAL MONEY MINING SYSTEM AND METHOD USING INTERNET OF THINGS}

The present invention relates to a digital money mining system and a digital money mining method using the same, and to a digital money mining system that can be obtained by mining digital money, such as bitcoin, and a digital money mining method using the same.

Digital currency is a digitally implemented currency. Cryptocurrency, that is, an encryption-based digital currency, is called a cryptocurrency. This cryptocurrency first became known when Bitcoin was announced in 2009, followed by Litecoin, Namecoin, and Peercoin, which were announced in 2012, 2013. Various cryptocurrencies such as Ripplecoin, Dogecoin, Mastercoin, Primecoin, and Auroracoin announced in 2014 continue to be created. The use of digital money is increasing because of the small number of users and the lack of support by countries, due to various merits of trading.

For example, in the case of Bitcoin, payments are made with Bitcoin at stores in the United States, Canada, China, Japan, etc., and in recent years, countries have been taxing the bitcoin transaction process by law. Also, technologies using digital currency have been proposed. For example, in the publication of the Korean Patent Publication No. 2002-0012045 (published on February 5, 2002) "Digital Credit Currency Distribution System", the productive activities of members are quantified on the website. And a system for dispensing digital credit money is disclosed.

As a method of acquiring digital money such as bitcoin by a general user, a method of using a trade and a method of mining are known. A method of using trading is a method of purchasing already issued Bitcoin. The mining method is a method of obtaining a new bitcoin from the bitcoin system.

This mining of Bitcoin can be performed by anyone with a computing device capable of running a cryptocurrency algorithm. However, such a decryption process may not be easy and may require relatively high specification computing equipment. In addition, while the decryption algorithm is running, the computing equipment may require a significant amount of power. For this reason, it can be difficult for the public to easily mine Bitcoin.

Accordingly, the present invention is to solve this problem, the problem to be solved by the present invention is to provide a digital currency mining system that anyone can easily obtain by mining digital money.

In addition, another object of the present invention is to provide a digital money mining method using the digital money mining system.

The digital money mining system according to an embodiment of the present invention includes a mining management server and at least one mining device. The mining management server receives information on an arbitrary task (hereinafter, referred to as 'full task') for mining digital currency from the digital currency system, and divides the entire task to generate at least one partial task, respectively. do. The mining apparatus receives information on any one of the partial tasks (hereinafter, referred to as 'assignment task') from the mining management server, and performs the allocation task using the generated driving power. .

Each of the mining devices may include a power generating unit and a mining unit. The power generation unit generates the drive power. The mining unit receives the information on the allocation task from the mining management server, and performs the allocation task using the driving power provided from the power generation unit.

The mining management server may include a mining job management module. In this case, the mining task management module receives the information on the entire task from the digital currency system, generates the partial tasks to be divided by the whole task to be assigned to each of the mining device, and then the allocation task is mined Send each to your device. In addition, the mining unit may include a mining module. At this time, the information on the allocation task is received from the mining task management module, and the allocation task is performed using the driving power provided from the power generation unit.

The mining job management module may be a program installed in the mining management server.

The mining unit may be a computing device including a processor, and the mining module may be a program installed in the mining unit.

When the mining module completes the execution of the assignment, the mining module may transmit information about the completion of the assignment to the mining operation management module included in the mining management server.

The mining task management module receives information on the completion of the assignment task from the mining module included in the mining unit, respectively, and determines whether the entire task is completed by using the information on the completion of the assignment task. If it is determined that the execution of the entire work is completed as a result of the determination, information about the completion of the entire work may be transmitted to the digital currency system.

The mining management server obtains a digital currency according to the completion of performing the entire work from the digital currency system, and allocates the total amount of the obtained digital money (hereinafter, referred to as 'mining total amount') to the whole task. The apparatus may further include a digital money management module which divides according to a ratio of work and provides the mining device to the mining device.

The digital money management module may be a program installed in the mining management server.

The digital currency system may pay the total amount of the mining to a digital wallet managed by the mining management server (hereinafter referred to as an administrator digital wallet). At this time, the digital money management module divides the total amount of mining paid to the manager digital wallet into at least one partial amount (hereinafter referred to as 'mining partial amount') according to the ratio of the allotted task to the total task. The amount of money divided according to the allocation operation among the amount of mined portions may be provided to the mining device, respectively.

The digital money management module divides the total amount of mining paid to the manager digital wallet into at least one partial amount (hereinafter referred to as 'mining portion amount') according to the ratio of the allotted task to the total task, The amount divided according to the allocation work among the mined partial amounts may be paid to the digital wallet corresponding to the mining device.

Alternatively, the digital money management module connects to a digital currency exchange server, sells the total amount of mining paid to the manager's digital wallet, obtains it as real money, and then obtains the total amount of real money (hereinafter, 'actual'). The total amount of money '), divided into at least one partial amount (hereinafter referred to as the' real partial amount ') according to the ratio of the allocated work to the total work, and divided according to the allocated work among the actual partial amounts. The amount can be paid to the financial account corresponding to the mining device.

Each of the mining devices may further include a power storage unit that stores the driving power provided from the power generating unit and provides the stored driving power to the mining unit.

The mining unit may receive the driving power directly from the power generating unit or the driving power from the power storage unit.

The power generation unit may include a power generation unit and a power conversion unit. In this case, the power generation unit generates initial power. The power converter converts the initial power provided from the power generator into the driving power and outputs the driving power.

The power generation unit may include at least one of a photoelectric device, a thermoelectric device, a piezoelectric device, and an RF device to generate the initial power.

The power generation unit may be attached to any person's body, and may be a body attachment device that generates and outputs the driving power from the body energy generated in the person's body, wherein the mining unit is provided from the body attachment device. It may be a digital device that performs the assignment by using the driving power, and can send and receive a signal through the wire and wireless communication network with the mining management server.

The power generating unit may be a shoe attaching device attached to the bottom of any shoe, the shoe attaching device generating and outputting the driving power from the pressure energy applied by the shoe, wherein the mining unit is provided with the shoe provided from the shoe attaching device. It may be a digital device that performs the assignment by using the driving power, and can exchange signals with the mining management server through a wired or wireless communication network.

The power generating unit may be attached to the bottom of any sidewalk block, and may be a sidewalk block attachment device that generates and outputs the drive power from the pressure energy applied by the sidewalk block, and the mining unit is the sidewalk block attachment device. It may be a computer system that performs the assignment by using the driving power provided from the signal transmission and reception through the mining management server through a wired or wireless communication network.

The power generation unit may be at least one solar cell panel that generates and outputs the driving power from light energy, the mining unit performs the assignment operation using the driving power provided from the solar cell panel, It may be a computer system that can exchange signals with the mining management server through a wired or wireless communication network.

The power generation unit may be mounted on an arbitrary vehicle, and may be an automobile mounting device that generates and outputs the driving power from energy generated in the automobile, and the mining unit uses the driving power provided from the automobile mounting device. It may be a digital device that performs the assignment operation, and can send and receive a signal through the mining management server through a wired or wireless communication network.

The power generation unit may be disposed under a certain speed bump, and may be a speed bump placement device that generates and outputs the driving power from the pressure energy applied by the speed bump, and the mining unit is the speed bump placement device. It may be a computer system that performs the assignment by using the driving power provided from the signal transmission and reception through the mining management server through a wired or wireless communication network.

The power generation unit may be mounted to any bicycle, and may be a bicycle mounting device for generating and outputting the driving power from the energy generated in the bicycle, the mining unit uses the driving power provided from the bicycle mounting device It may be a digital device that performs the assignment operation, and can send and receive a signal through the mining management server through a wired or wireless communication network.

Next, the digital money mining method according to an embodiment of the present invention comprises the steps of the mining management server to receive information about any operation (hereinafter referred to as 'full operation') for the mining of digital money from the digital currency system; The mining management server dividing the entire task to generate at least one partial task, respectively; Receiving, by at least one mining device, information on any one of the partial jobs (hereinafter, referred to as an "assignment job") from the mining management server; And performing, by the mining device, the allocation operation using the generated driving power, respectively.

The digital money mining method may further include transmitting information on the completion of the allocation operation to the mining management server when the mining device completes the allocation operation.

In the digital currency mining method, the mining management server determines whether the entire work is completed by using information on the completion of the allocation work respectively received from the mining device, and as a result, the entire work is completed. If it is determined that the information is completed, the method may further include transmitting information on the completion of performing the entire work to the digital currency system.

The digital money mining method may further include: obtaining, by the mining management server, digital money according to completion of the entire work from the digital money system; And dividing, by the mining management server, the total amount of digital money obtained (hereinafter referred to as 'mining total amount') according to the ratio of the allocating task to the total task and providing the mining device to the mining device, respectively. can do.

In the step of the mining management server to obtain a digital currency in accordance with the completion of the entire work from the digital currency system, the digital wallet system manages the total amount of mining by the mining management server (hereinafter referred to as' manager Digital wallet).

In the mining management server dividing the total amount of mining and providing the mining device to the mining device, the mining management server pays the total amount of mining paid to the manager digital wallet to the ratio of the assigned work to the total work. Accordingly, it may be divided into at least one partial amount (hereinafter referred to as 'mining portion amount'), and the amount divided according to the allocation work among the mining portion amount may be paid to the digital wallet corresponding to the mining device.

The dividing of the total amount of the mining by the mining management server to the mining device, respectively, the mining management server is connected to a digital currency exchange server, the actual amount of the mining paid to the manager digital wallet to sell Obtaining in money; And the total amount of real money (hereinafter, referred to as 'real total amount') of the actual currency obtained by the mining management server according to at least one partial amount (hereinafter, 'real partial amount') And dividing the amount divided according to the allocation work among the actual partial amounts into a financial account corresponding to the mining device.

As described above, in the digital money mining system and the digital money mining method using the same, the mining management server receives the information on the mining work of the digital money from the digital money system, and divides the mining work by the mining device. When the mining device is provided to the mining device, the mining device performs the tasks assigned to the self using the generated driving power, so that any manager who operates the mining device can easily mine and acquire digital currency. have. That is, as the mining device performs the task assigned to itself by using the driving power generated by itself rather than the power stored in the battery, any manager who operates the mining device without worrying about power consumption can easily use digital money. Can be obtained by mining.

In addition, when the mining management server determines that all the work assigned to each of the mining devices is completed, the digital money system obtains the digital money according to the mining work, and then accesses the digital currency exchange server and automatically sells the money. Then, by providing the financial account corresponding to each of the mining device, the manager operating the mining device can easily obtain the actual money without selling the digital money.

1 is a conceptual diagram illustrating a digital money mining system according to an embodiment of the present invention.
FIG. 2 is a conceptual diagram illustrating a connection relationship between a digital money system, a mining management server, and mining devices in the digital money mining system of FIG. 1.
3 is a block diagram illustrating in detail the mining device A of the digital money mining system of FIG.
FIG. 4 is a diagram illustrating an energy harvesting technique for generating driving power in the mining apparatus of FIG. 1.
FIG. 5 is a detailed block diagram illustrating a power generating unit of the mining device A of FIG. 3.
FIG. 6 is a flowchart illustrating a digital money mining method using the digital money mining system of FIG. 1.
7 is a flowchart illustrating an example of a distribution process of the total amount of mining in the digital money mining method of FIG.
8 is a flowchart illustrating another example of a distribution process of the total amount of mining in the digital money mining method of FIG.
FIG. 9 is a conceptual diagram illustrating Embodiment 1 to which the digital currency mining system of FIG. 1 is applied.
FIG. 10 is a conceptual diagram illustrating Embodiment 2 to which the digital currency mining system of FIG. 1 is applied.
FIG. 11 is a conceptual diagram illustrating Embodiment 3 to which the digital currency mining system of FIG. 1 is applied.
FIG. 12 is a conceptual diagram illustrating Embodiment 4 to which the digital currency mining system of FIG. 1 is applied.
FIG. 13 is a conceptual diagram illustrating Embodiment 5 to which the digital currency mining system of FIG. 1 is applied.
FIG. 14 is a conceptual diagram illustrating Embodiment 6 to which the digital currency mining system of FIG. 1 is applied.
FIG. 15 is a conceptual diagram illustrating Embodiment 7 to which the digital currency mining system of FIG. 1 is applied.

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the text.

However, this is not intended to limit the present invention to the specific disclosed form, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "having" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described in the specification, and that one or more other features It should be understood that it does not exclude in advance the possibility of the presence or addition of numbers, steps, actions, components, parts or combinations thereof.

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

FIG. 1 is a conceptual diagram illustrating a digital money mining system according to an embodiment of the present invention, and FIG. 2 illustrates a connection relationship between a digital money system, a mining management server, and mining devices in the digital money mining system of FIG. 1. 3 is a block diagram illustrating a mining device A in detail in the digital currency mining system of FIG. 1, and FIG. 4 is a diagram illustrating an energy harvesting technique for generating driving power in the mining device of FIG. 1. 5 is a block diagram illustrating in detail the power generating unit of the mining device A of FIG. 3.

1 to 5, the digital money mining system according to the present embodiment is a system for mining and obtaining digital money, and includes a mining management server 100 and a plurality of mining devices 200. For example, the mining devices 200 may include a mining device A, a mining device B, a mining device C, and the like.

The mining management server 100 is an arbitrary computer system, and signals with the digital currency system 10, the digital currency exchange server 20 and the mining devices 200 through a wired or wireless communication network, for example, a wired or wireless internet. Can send and receive

The mining management server 100 receives the mining work of the digital money from the digital currency system 10 and distributes the mining devices 200 to the mining devices 200, respectively, and the execution result of the distributed work is extracted from the mining devices 200. It may include a mining operation management module 110 that can be collected and provided to the digital currency system (10). In this case, the mining job management module 110 may be one of computer systems included in the mining management server 100, but may be a program installed in the mining management server 100.

In addition, when the mining management server 100 receives the digital money from the digital currency system 10 in exchange for the mining work, the mining management server 100 is connected to the digital currency exchange server 20 to sell the received digital money to sell the actual money. After the acquisition may further include a digital money management module 120 that can be paid by each of the mining device (200). In this case, the digital money management module 120 may be one of the computer system included in the mining management server 100, but may be a program installed in the mining management server 100.

The mining devices 200 may perform tasks distributed from the mining management server 100 by using the generated driving power, respectively, and transmit the result to the mining management server 100, respectively. In detail, each of the mining devices 200 may include a power generating unit 210, a power storage unit 220, and a mining unit 230.

The power generation unit 210 may generate driving power for driving the mining unit 220. For example, the power generation unit 210 may generate the first power by itself using external energy and the driving power by the power generation unit 212 and the initial power provided from the power generation unit 212. It may include a power converter 214 that can be converted to output. In this case, the power generation unit 212 is a photoelectric device for generating power using optical energy, a thermoelectric device for generating thermal energy as power, a piezoelectric device for generating power using pressure energy, vibration energy, etc., electromagnetic wave energy It may include at least one of the RF devices for generating power using the, and can be used to generate the initial power using these devices.

The power storage unit 220 is a battery device capable of storing power. The power storage unit 220 stores the driving power provided from the power conversion unit 214 and provides the stored driving power to the mining unit 230. Can be.

The mining unit 230 may receive the driving power directly from the power converter 214 or the driving power from the power storage unit 220. The mining unit 230 may include a mining module 232 to perform the work distributed from the mining work management module 110 using the provided driving power as described above. For example, the mining unit 230 may be a computing device including a processor, and the mining module 232 may be a program installed in the mining unit 230.

In the present embodiment, 'digital money' means digital currency based on encryption, and may be any one of, for example, bitcoin, litecoin, namecoin, and peercoin. Such 'digital money' is managed through a digital wallet, and generally implemented in software can be stored in a storage device of a computer. For example, the 'digital wallet' may be divided into addresses composed of a public key generated according to a predetermined encryption algorithm. In other words, 'digital money' can move from one person's digital wallet to another person's digital wallet.

In the present embodiment, the digital money system 10 is a system for managing issuance of digital money having a specific mathematical encryption algorithm, etc., wherein a plurality of nodes 12 are connected through wired or wireless communication networks. to-peer) network system. In addition, the digital currency exchange server 20 may be a computer system that provides a transaction service for relaying between a person who wants to sell digital money and a person who wants to buy digital money.

Hereinafter, the digital money mining method will be described in detail using the digital money mining system described above.

FIG. 6 is a flowchart illustrating a digital money mining method using the digital money mining system of FIG. 1.

6 and 1 to 5, first, the mining operation management module 110 of the mining management server 100 connects to the digital currency system 10 and digital money from the digital currency system 10. Information about an arbitrary operation (hereinafter, referred to as 'full operation') for mining may be received (S10). In this case, the entire operation may be a mining operation in the digital currency system 10 or a partial operation divided in the mining operation. In the present embodiment, the 'mining operation' may be a mathematical operation for generating a hash value that satisfies the condition suggested by the digital currency system 10.

Subsequently, the mining task management module 110 may generate a plurality of partial tasks to be allocated to the mining apparatuses 200 by dividing the entire task (S20). For example, the mining task management module 110 divides the entire task and respectively performs the partial task A, the partial task B, and the partial task C to be assigned to the mining apparatus A, the mining apparatus B, and the mining apparatus C, respectively. Can be generated. In this case, the job assigned to the mining device A may be the partial job A, the job assigned to the mining device B may be the partial job B, and the job assigned to the mining device C may be the partial job C.

Meanwhile, when the mining job management module 110 divides the entire job to generate the partial jobs, the partial jobs are generated by dividing the entire job according to the processing capacity of the mining units 230. You may.

Subsequently, the mining unit 230 of each of the mining devices 200 receives information about a task (hereinafter, referred to as 'allocation task') assigned to itself from the mining task management module 110 to the partial tasks. Each can be received (S30). That is, the mining job management module 110 may allocate the partial jobs to the mining devices 200 to transmit corresponding information.

Subsequently, the mining module 232 included in the mining unit 230 of each of the mining devices 200 uses the driving power generated by the power generating unit 210 to generate the mining work management module 110. In operation S40, the allocation operation received from the user may be performed. Here, the driving power generated by the power generation unit 210 is power generated by an energy harvesting technique, for example, body energy, vibration energy, thermal energy, gravity energy, electromagnetic energy, light energy, It may be electric power generated by potential energy, pressure energy and the like.

Subsequently, when the mining module 232 completes the execution of the assignment, the mining module 232 may transmit information about the completion of the assignment to the mining operation management module 110 of the mining management server 100 (S50). . For example, if the mining module 232 is a task of finding a hash value of a specific mathematical encryption algorithm within an area allocated to the mining module, the mining module 232 determines whether a hash value is found in the corresponding area, and if it is found. The hash value may be transmitted to the mining operation management module 110. Accordingly, the mining task management module 110 receives information on the result of the work performed in each of the mining modules 230 from all the mining modules 230, that is, information on completion of performing the partial tasks. Can be provided.

Subsequently, the mining task management module 110 determines whether the entire task is completed by using information on the completion of the partial tasks received from all the mining modules 230, and determines that the entire task is completed. When it is determined that the execution of the work is completed, information on the completion of the entire work may be transmitted to the digital currency system (S60).

Subsequently, the digital money management module 120 of the mining management server 100 may obtain digital money according to completion of the entire work from the digital money system 10 (S70). For example, the digital money system 10 may pay the digital money according to the completion of the entire work to the digital wallet 30 managed by the mining management server 100, that is, the manager digital wallet.

Subsequently, the digital money management module 120 calculates the total amount of digital currency obtained from the digital currency system 10 (hereinafter, referred to as 'mining amount') in the mining devices 200 for the entire work. The dividing may be performed according to the ratio of the respective assignment operations and provided to the mining devices 200 (S80).

Hereinafter, the process of distributing the total amount of mining by the digital money management module 120 will be described in detail.

7 is a flowchart illustrating an example of a distribution process of the total amount of mining in the digital money mining method of FIG.

Referring to FIG. 7, in step S80, the digital money management module 120 first assigns the total amount of the mining amount paid to the manager digital wallet to the allocation of the respective tasks of the mining devices 200 to the entire job. According to the ratio, it may be divided into a plurality of partial amounts (hereinafter referred to as 'mining portion amount') (S82). For example, the mining partial amounts of money include mining partial amount A according to the allocation operation of the mining device A, mining partial amount B according to the allocation operation of the mining device B, and mining according to the allocation operation of the mining device C. Partial amount C may be included.

Subsequently, the digital money management module 120 may provide the mining portion amounts to the mining devices 200 to be matched with the assignment of the mining devices 200 (S84). For example, the digital money management module 120 may pay each of the mined partial amounts according to the allocation tasks to digital wallets corresponding to the mining devices.

Specifically, the digital wallets may include a digital wallet A corresponding to the mining device A, a digital wallet B corresponding to the mining device B, and a digital wallet C corresponding to the mining device C. Accordingly, the digital money management module 120 pays the mined portion amount A to the digital wallet A, pays the mined portion amount B to the digital wallet B, and sends the mined portion amount C to the digital wallet C. Can pay

8 is a flowchart illustrating another example of a distribution process of the total amount of mining in the digital money mining method of FIG.

Referring to FIG. 8, in step S80, the digital money management module 120 first accesses the digital currency exchange server 20 and sells the total amount of mining paid to the manager digital wallet to sell the actual money. For example, it can be obtained in won, dollar (S86). At this time, the digital money management module 120 is the mining management server 110 to determine the total amount of the real money (hereinafter, referred to as 'the actual total amount') obtained through the sale in the digital currency exchange server 20 Can be stored in the financial account 40, i.

Subsequently, the digital money management module 120 converts the actual total amount obtained through the sale from the existing digital currency exchange server 20 to the ratio of the assigned tasks of each of the mining devices 200 to the total work. The subdivision is divided into a plurality of partial amounts (hereinafter, referred to as a 'real partial amount'), and corresponds to the mining apparatuses 200 so as to match with the assignment of each of the mining apparatuses 200 among the actual partial amounts. Each of the financial accounts 40 may be paid (S88). For example, in the actual partial amounts, the actual partial amount A according to the allocation operation of the mining device A, the actual partial amount B according to the allocation operation of the mining device B, and the actual portion according to the allocation operation of the mining device C. Partial amount C may be included. Accordingly, the digital money management module 120 pays the actual partial amount A to the digital wallet A, the actual partial amount B to the digital wallet B, and the actual partial amount C to the digital wallet C. Can pay

Hereinafter, embodiments to which the digital currency mining system of FIG. 1 is applied will be described in detail.

FIG. 9 is a conceptual diagram illustrating Embodiment 1 to which the digital currency mining system of FIG. 1 is applied.

Referring to FIG. 9, the power generation unit 210 may be a wearable device attached to the body of any person. For example, the power generation unit 210 may be a body attachment device attached to a body of any person and generating and outputting the driving power from the body energy generated in the body of the person. Specifically, for example, the body attachment device may be a bracelet device that is attached to a wrist of a person to generate the driving power of the heat energy or vibration energy of the body.

The mining unit 230 may be directly connected to the body attachment device in a wired manner to receive the driving power from the body attachment device, or to receive the driving power in short-range wireless communication from the body attachment device, or The driving power may be provided by wire or wirelessly from the power storage unit 220 storing the driving power generated by the body attachment device. The mining unit 230 may perform the assignment by using the driving power provided from the body attachment device or the power storage unit 220. The mining unit 230 may be a digital device that can exchange signals with the mining management server 100 through a wired / wireless communication network, for example, a smart device such as a smartphone or a tablet PC.

FIG. 10 is a conceptual diagram illustrating Embodiment 2 to which the digital currency mining system of FIG. 1 is applied.

Referring to FIG. 10, the power generation unit 210 may be a wearable device attached to the body of any person. For example, the power generation unit 210 may be a shoe attachment device attached to the bottom of any shoe, and generates and outputs the driving power from the pressure energy applied by the shoe.

The mining unit 230 may be directly connected to the shoe attachment device in a wired manner to receive the driving power from the shoe attachment device, or to receive the driving power in short-range wireless communication from the shoe attachment device, or the shoe. The driving power may be provided by wire or wirelessly from the power storage unit 220 storing the driving power generated by the attachment device. The mining unit 230 may perform the assignment by using the driving power provided from the shoe attachment device or the power storage unit 220. The mining unit 230 may be a digital device that can exchange signals with the mining management server 100 through a wired / wireless communication network, for example, a smart device such as a smartphone or a tablet PC.

FIG. 11 is a conceptual diagram illustrating Embodiment 3 to which the digital currency mining system of FIG. 1 is applied.

Referring to FIG. 11, the power generation unit 210 may be attached to the bottom of any sidewalk block, and may be a sidewalk block attachment device that generates and outputs the driving power from the pressure energy applied by the sidewalk block.

The mining unit 230 may be directly connected to the sidewalk block attachment device in a wired manner to receive the drive power from the sidewalk block attachment device, or to store the drive power generated by the sidewalk block attachment device. The driving power may be provided by wire from the storage unit 220. The mining unit 230 may perform the allocation operation using the driving power provided from the sidewalk block attachment device or the power storage unit 220. The mining unit 230 may be a computer system that may exchange signals with the mining management server 100 through a wired or wireless communication network.

FIG. 12 is a conceptual diagram illustrating Embodiment 4 to which the digital currency mining system of FIG. 1 is applied.

Referring to FIG. 12, the power generation unit 210 may be at least one solar cell panel generating and outputting the driving power from light energy. In this case, the solar cell panel may be disposed in an empty lot.

The mining unit 230 may be directly connected to the solar panel in a wired manner to receive the driving power from the solar cell panel, or to store the driving power generated by the solar panel. 220 may be provided with the driving power by wire. The mining unit 230 may perform the assignment by using the driving power provided from the solar panel or the power storage unit 220. The mining unit 230 may be a computer system that may exchange signals with the mining management server 100 through a wired or wireless communication network.

FIG. 13 is a conceptual diagram illustrating Embodiment 5 to which the digital currency mining system of FIG. 1 is applied.

Referring to FIG. 13, the power generation unit 210 may be mounted on an arbitrary vehicle, and may be an automobile-mounted device that generates and outputs the driving power from energy generated in the automobile. For example, the vehicle mounting device may be disposed on an upper portion of the thermoelectric element that generates the driving power from the thermal energy generated in the vehicle, the piezoelectric element that generates the driving power from the vibration energy generated in the automobile. It may include a photoelectric device for converting light energy into the drive power, a generator for generating the drive power from the rotational power of the vehicle.

The mining unit 230 may receive the driving power by wire from the vehicle mounting device, or the driving power by wire from the power storage unit 220 storing the driving power generated in the vehicle mounting device. Can be provided. The mining unit 230 may perform the assignment by using the driving power provided from the vehicle mounting device or the power storage unit 220. The mining unit 230 may be a digital device, for example, an electronic control unit (ECU), mounted in the vehicle and capable of exchanging signals with the mining management server 100 through a wired or wireless communication network.

FIG. 14 is a conceptual diagram illustrating Embodiment 6 to which the digital currency mining system of FIG. 1 is applied.

Referring to FIG. 14, the power generation unit 210 may be a speed bump arrangement device that is disposed under an arbitrary speed bump and generates and outputs the driving power from the pressure energy applied by the speed bump.

The mining unit 230 may be directly connected to the speed bump placement device in a wired manner to receive the driving power from the speed bump placement device, or to store the driving power generated by the speed bump placement device. The driving power may be provided by wire from the storage unit 220. The mining unit 230 may perform the assignment by using the driving power provided from the speed bump arrangement device or the power storage unit 220. The mining unit 230 may be a computer system that may exchange signals with the mining management server 100 through a wired or wireless communication network.

FIG. 15 is a conceptual diagram illustrating Embodiment 7 to which the digital currency mining system of FIG. 1 is applied.

Referring to FIG. 15, the power generation unit 210 may be mounted on an arbitrary bicycle, and may be a bicycle mounting device that generates and outputs the driving power from energy generated by the bicycle. For example, the bicycle mounting device may include a generator capable of generating the driving power from the rotational power of the bicycle, a piezoelectric element disposed in the saddle or the pedal of the bicycle to convert pressure energy into the driving power, and the like. can do.

The mining unit 230 may receive the driving power by wire from the bicycle mounting device, or the driving power by wire from the power storage unit 220 storing the driving power generated by the bicycle mounting device. Can be provided. The mining unit 230 may perform the assignment by using the driving power provided from the bicycle mounting device or the power storage unit 220. The mining unit 230 may be a digital device mounted on the bicycle and capable of exchanging signals with the mining management server 100 through a wired or wireless communication network.

As described above, according to the present embodiment, after the mining management server 100 receives the information on the mining operation of the digital currency from the digital currency system 10, the mining operation is divided by the mining devices 200. And allocating and providing the mining devices 200 to the mining devices 200, the mining devices 200 each of the mining devices 200 by performing a task assigned to the self using the generated driving power. Anyone who manages any one can easily mine and acquire digital currency anytime and anywhere. That is, as each of the mining devices 200 does not use the power already stored in the battery but performs the task assigned to itself by using the driving power generated by itself, anyone can easily digital money without worrying about power consumption. Can be obtained by mining.

In addition, when the mining management server 100 determines that all the work assigned to each of the mining devices 200 is completed, the digital money system 10 obtains the digital money according to the mining work, and As the user automatically connects to the digital currency exchange server 20 and sells the funds to the financial account corresponding to each of the mining devices 200, the manager operating the mining devices 200 sells the digital money. You can easily get real money without any process.

Although the detailed description of the present invention described above has been described with reference to preferred embodiments of the present invention, those skilled in the art or those skilled in the art will have the idea of the present invention described in the claims to be described below. It will be understood that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

100: moving body 110: edge device
120: moving object control device 200: intermediate connection device
300: server 400: user terminal

Claims (30)

A mining management server that receives information on an arbitrary task (hereinafter, referred to as 'full task') for mining digital currency from the digital currency system, and divides the entire task to generate at least one partial task, respectively; And
At least one mining for receiving information on any one of the partial tasks (hereinafter referred to as 'assignment task') from the mining management server, respectively, and performing the allocation task using the generated driving power Including a device,
Each of the mining device
A power generation unit for generating the drive power; And
A mining unit for receiving information on the allocation work from the mining management server and performing the allocation work using the driving power provided from the power generation unit,
The mining management server
Receiving information about the entire job from the digital currency system, and generates the partial job to be divided by the mining device to be assigned to each mining device, respectively, and then the mining job management to transmit the assignment job to the mining device, respectively Including modules,
The mining unit
A mining module for receiving information on the allocation job from the mining job management module and performing the allocation job using the driving power provided from the power generation unit,
The mining module
Upon completion of the assignment task, transmit information on completion of the assignment task to the mining task management module included in the mining management server,
The mining operation management module
Receiving information on the completion of the assignment task from the mining module included in the mining unit, respectively, and determining whether or not to complete the entire task using the information on the completion of the assignment task, the determination result When it is determined that the performance of the entire work is completed, information about the completion of the overall work is transmitted to the digital currency system,
The mining management server
Acquiring a digital currency from the digital currency system according to the completion of the entire work, and obtaining the total amount of the digital money (hereinafter, referred to as the 'mining amount') according to the ratio of the allocated work to the total work. It further comprises a digital money management module for dividing and providing each to the mining device,
The digital currency system
Pay the total amount of the mining to the digital wallet managed by the mining management server (hereinafter referred to as "administrator digital wallet"),
The digital money management module
After accessing the digital currency exchange server, the total amount of mining paid to the manager's digital wallet is sold and acquired in real currency, and then the total amount of the actual currency (hereinafter, referred to as the 'real total amount') is obtained. According to the ratio of the allocation work to the job divided into at least one partial amount (hereinafter referred to as the 'real partial amount'), the amount divided according to the allocation of the actual partial amount corresponding to the mining device To each of your financial accounts,
The power generation unit
A power generation unit disposed below any speed bumps and generating initial power from pressure energy applied by the speed bumps; And
A power converter converting the initial power provided from the power generator into the driving power and outputting the driving power;
The mining unit
And a computer system capable of performing the assignment by using the driving power provided from the power converter and transmitting and receiving a signal through the mining management server through a wired / wireless communication network. delete delete The method of claim 1,
The mining operation management module
Digital money mining system, characterized in that the program installed in the mining management server. The method of claim 1,
The mining unit
A computing device with a processor,
The mining module
Digital money mining system, characterized in that the program installed in the mining unit. delete delete delete The method of claim 1,
The digital money management module
Digital money mining system, characterized in that the program installed in the mining management server. delete delete delete The method of claim 1,
Each of the mining device
And a power storage unit for storing the driving power provided from the power conversion unit and providing the stored driving power to the mining unit. The method of claim 13,
The mining unit
And receiving the driving power directly from the power converter or the driving power from the power storage unit. delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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