JP2020174324A - Digital currency trading method with multiple private key authorization - Google Patents

Abstract

To provide a digital currency trading method.SOLUTION: A digital currency trading method of the present invention includes the steps of providing user information to three terminals, each of which generates a set of public and private keys, acquiring a transaction public key formed from the three public keys by the terminal, and setting the transaction public key such that a digital currency cannot be transferred without two or more electronic seal stamps corresponding to the private key, providing collation information, collating that the collation information corresponds to user information, causing one of the terminals to acquire two or more electronic seal stamps, and moving the digital currency to match the two or more electronic seals with the transaction public key.SELECTED DRAWING: Figure 1

Description

The present invention relates to a digital currency trading method capable of reducing the theft of digital assets, and more particularly to a digital currency trading method in which a digital currency cannot be transferred without obtaining two or more electronic seal stamps.

With advances in science and technology, many trading and payment methods are gradually being replaced by integrated circuit (IC) cards. The memory provided in the IC card can store the information of the card holder, and is widely applied in each case. For example, cash cards, financial cards, credit cards, telephone cards, prepaid cards, etc. are all well-known IC cards at present, and commonly used IC cards are contactless interfaces depending on the data storage and reading method. , Non-contact interface and compound interface are roughly classified into three types.

Taking a financial card having a credit card and a cash card function as an example, before conducting a transaction or service via an ATM using a financial card, the ATM allows the cardholder to enter a preset password to obtain the financial card. You need to get the right to use it. Therefore, even if the financial card is lost or stolen, a person who is not the original card holder cannot steal cash via the ATM because he / she does not know the preset password. However, the ATM determines whether or not to withdraw cash according to a preset password, cannot determine whether or not the financial card is the correct original card holder, and is not a former card holder. If you know the preset password, the ATM will still withdraw cash and have someone who is not the original cardholder steal the cash. In addition, if the cardholder consumes with a financial card, he or she will be required to sign the cardholder's name on the transaction slip, and if the financial card is lost or stolen, it will be falsely signed by someone other than the original cardholder. Or it is easily skimmed and property damage has occurred.

In addition, as wireless transmission technology has made remarkable progress, RFID (Radio-frequency identification) wireless transmission technology has been used for some IC cards, and such RFID technology has been applied to public transportation such as buses and MRTs. Most often applied to low-value consumer transactions such as riding. However, in order to demand speed and convenience, such a small amount of consumption does not require the input of a password or the signature of a card holder at the same time as the transaction, so that the IC card consumed by wireless guidance is lost or stolen. In that case, a person who is not the original card holder who picked up the IC card can directly carry out a consumption transaction until the use of the IC card is stopped or the deposited amount is consumed.

For speed and convenience, the IC card used in the access management system can normally enter and exit the area under access control control smoothly if the correct IC card is possessed. Therefore, if the IC card used in the access control system is lost or stolen, a person who is not the original card holder who picked up the IC card can enter and leave the access control control area directly via the picked up IC card.

As is clear from the above explanation, when a normal IC card is lost and picked up by a person who is not the original card holder, the person who is not the original card holder steals digital assets through the picked up IC card and further It becomes possible to cause financial damage to the card holder.

A main object of the present invention is that digital currency cannot be transferred without obtaining two or more electronic seal stamps, and even if a thief steals one of the private keys, the stolen private key is still used. Because the digital currency cannot be moved, it is possible to prevent the digital currency from being stolen by a thief.

In order to realize the above object, the present invention provides user information indicating a user ID, and each of the first terminal, the second terminal, and the third terminal has a set of public keys corresponding to the user information. And by forming the private key, the first terminal has the first private key and the first public key, the second terminal has the second private key and the second public key, and the third terminal has. The public key / private key setting step having the third private key and the third public key, and the first terminal, the second terminal, and the third terminal are the first public key and the second public key. And the transaction public key generated by combining the third public key is acquired, and the transaction public key is a first electronic seal corresponding to the first private key and a second electronic seal corresponding to the second private key. And, according to two or more of the three of the third electronic seal corresponding to the third private key, the transaction public key setting step capable of permitting the movement of the digital currency and the collation information having the user information are provided. It is collated whether the collation information corresponds to the user information, and when the collation information corresponds to the user information, any one of the first terminal, the second terminal and the third terminal is the first electron. A private key verification step having two or more of the seal, the second electronic seal, and the third electronic seal, and transaction information are formed to form the first electronic seal, the second electronic seal, and the third electronic. A digital currency trading method by multiple private key authorization, including a currency transfer step in which two or more of the three seals authorize the transaction public key and can transfer the digital currency of the transaction public key according to the transaction information. Regarding.

In one preferred embodiment, in the public / private key setting step, the user information is transferred to the first terminal, the second terminal, and the third terminal, and the first terminal, the second terminal, and the first terminal are transferred. After the three of the three terminals receive the user information, they form the set of public key and private key, respectively.

However, in the transaction public key setting step, the first terminal acquires the second public key and the third public key to obtain the first public key, the second public key, and the third public key. The first public key is combined with the second public key and the third public key to generate the transaction public key, and the transaction public key is transferred to the second terminal and the third terminal. ..

In another preferred embodiment, in the public / private key setting step, the first terminal, the second terminal, and the third terminal each have at least one set of initial public / private keys that have not been set. The initial public key / private key is set and converted into the public key and the private key according to the user information.

However, in the transaction public key setting step, each of the first terminal, the second terminal, and the third terminal acquires the first public key, the second public key, and the third public key, and the third public key is obtained. The transaction public key is formed by combining the first public key, the second public key, and the third public key.

In the above two embodiments, in the digital currency trading method by the multiple private key authorization, the first secret, the second terminal, and the third terminal correspond to the user information in the fourth secret. The public / private key resetting step that forms the key and the fourth public key, two of the three of the first public key, the second public key, and the third public key, and the fourth public key. To form a reset transaction public key for consignment management of the transaction public key, and a private key corresponding to two of the three, the first public key, the second public key, and the third public key. Further includes a replacement step of moving the digital currency of the transaction public key to the reset transaction public key by acquiring.

As is clear from the above description, in the present invention, the first terminal, the second terminal, and the third terminal each have one private key and one public key, and all the public keys are combined. It is characterized in that it forms a public transaction key and cannot move digital currency without two or more electronic seals. As a result, when trying to move digital currency, it is not possible to move digital currency without obtaining electronic seals from at least two terminals, and even if a thief steals one of the private keys, it is still stolen. Since the digital currency cannot be moved through the private key, it is possible to prevent the digital currency from being stolen by a thief.

It is a schematic diagram which shows the flow in the 1st preferable embodiment of the digital currency transaction method of this invention. It is a block diagram of a digital currency trading system. It is a schematic diagram of the public key / private key setting step in FIG. It is a schematic diagram of the public key / private key setting step in FIG. It is a schematic diagram of the public key / private key setting step in FIG. It is a schematic diagram of the transaction public key setting step in FIG. It is a schematic diagram of the private key verification step in FIG. It is a schematic diagram of the currency movement step in FIG. It is a schematic diagram of the public key / private key setting step in the second preferable embodiment. It is a schematic diagram of the transaction public key setting step in the second preferred embodiment. It is a schematic diagram of the secret key verification step in the third preferred embodiment. It is a schematic diagram of the currency transfer step in the third preferred embodiment. It is a schematic diagram which shows the flow in 4th preferable Example of the digital currency transaction method of this invention. It is a schematic diagram of the public key / private key reset step in the 4th preferred embodiment. It is a schematic diagram of the replacement step in the fourth preferred embodiment. It is a schematic diagram which moves the digital currency of a transaction public key to a reset transaction public key.

Further, in order to make it easier to recognize and understand the structure, use and features of the present invention in a clearer and more detailed manner, preferred examples will be given and the following will be specifically described with reference to the drawings.

See FIGS. 1 and 2. In the first preferred embodiment, the digital currency trading method 1 of the present invention is used in conjunction with the digital currency trading system 2. As shown in FIG. 2, the digital currency trading system 2 has a first terminal 20, a second terminal 21, and a third terminal 22, and the first terminal 20 is a mobile phone, computer, or tablet PC used by a user. The second terminal 21 is a consignment management unit capable of managing a public key, and the third terminal 22 is a trust unit capable of managing a public key. The first terminal 20 is a mobile phone, a computer or a tablet PC, and the second terminal 21 Is a consignment management unit and the third terminal 22 is a trust unit for convenience of explanation, that is, the first terminal 20 is a consignment management unit, the second terminal 21 is a trust unit, and the third terminal. 22 may be a mobile phone, a computer or a tablet PC.

In this embodiment, the first terminal 20, which is a mobile phone, computer or tablet PC, can be actively connected to the Internet 23, and the Internet 23 is simultaneously connected to the second terminal 21, the third terminal 22, and the transaction blockchain 24. By doing so, all the first terminals 20 can be connected to the second terminal 21, the third terminal 22, and the transaction blockchain 24 via the Internet 23.

The second terminal 21, which is a consignment management unit, has a collation database 211 for storing information contents, and can provide a storage medium 25. Further, the third terminal 22 as a trust unit has a control database 221 for storing information contents, and public keys of a plurality of different users are stored in the transaction blockchain 24, and each public key is stored. Has a digital currency and trading address. In this embodiment, the storage medium 25 cannot be directly and actively connected to the Internet 23, but each storage medium 25 may be selectively connected or disconnected from any one of the plurality of first terminals 20 on a one-to-one basis. .. When the storage medium 25 is connected to the first terminal 20, it can be connected to the Internet 23 via an electronic device. Among them, the storage medium 25 is provided with a microprocessor 251 capable of processing information, a memory 252 capable of storing information, and a security chip 253 storing important information, and both the memory 252 and the security chip 253 are provided. Both are electrically connected to the microprocessor 251. Among them, the security chip 253 has a processing unit 253a capable of processing information, and in this embodiment, the storage medium 25 is an integrated circuit (IC) card.

See FIGS. 1 and 3A. When specifically applied, first, the public key / private key setting step 10 is performed. The user inputs user information indicating a user ID to the first terminal 20, the first terminal 20 transfers the user information to the second terminal 21, and the second terminal 21 follows the user information in the second terminal 21. A second private key for setting the user database 212 stored in the user database 212, storing the user information in the collation database 211, and permitting the second terminal 21 to move the digital currency according to the user database 212, and a second Set the second public key corresponding to the private key.

See FIG. 3B. The second terminal 21 stores the second private key in the user database 212, transfers the user information and the second public key to the third terminal 22, and the third terminal 22 stores the user information in the control database 221. Then, according to the user information and the second public key, a third private key for permitting the movement of the digital currency and a third public key corresponding to the third private key are set. Among them, the third terminal 22 stores the third private key and is used to manage the third private key.

See FIG. 3C. After that, the third terminal 22 transfers the second public key and the third public key to the second terminal 21, and the second terminal 21 transfers the second public key and the third public key to the memory 252 of the storage medium 25. A storage medium 25 having the second public key and the third public key is provided to the user. Next, after the user acquires the storage medium 25, the first terminal 20 has a first private key for permitting the movement of the digital currency according to the user information, and a first public key corresponding to the first private key. And set. Among them, the first terminal 20 further transfers the first secret key to the storage medium 25, and causes the security chip 253 of the storage medium 25 to store the first secret key. Further, the first terminal 20 further transfers the first public key to the storage medium 25, the second terminal 21, and the third terminal 22, so that the memory 252 of the storage medium 25 and the user database 212 of the second terminal 21 And all three of the third terminal 22 store the first public key. As a result, the public key / private key setting step 10 is completed.

See FIGS. 1 and 4. Next, the transaction public key setting step 11 is performed. When the first public key, the second public key, and the third public key are stored in the memory 252 of the storage medium 25, the microprocessor 251 of the storage medium 25 uses the first public key, the second public key, and the third public key. 3 A transaction mode in which a public key is combined to form a transaction public key having a digital currency, and the microprocessor 251 cannot move the digital currency without the transaction public key and at least two electronic seals corresponding to the private key. Set to. After that, the microprocessor 251 transfers the transaction public key in the transaction mode to the first terminal 20, and the first terminal 20 further transfers the transaction public key to the second terminal 21, the third terminal 22, and the transaction blockchain 24. The transfer is made so that the first terminal 20, the second terminal 21, the third terminal 22, and the transaction blockchain 24 can all store the transaction public key.

See FIGS. 1 and 5. When the user intends to move the digital currency, the first terminal 20 receives the collation information having the user information input and formed by the user, and transfers the collation information to the second terminal 21. When the second terminal 21 receives the collation information, it confirms whether or not the collation information corresponds to the user information stored in the collation database 211. When the second terminal 21 confirms that the information content of the collation information corresponds to the information content of the user information, the second terminal 21 forms a second electronic seal stamp that is transferred to the first terminal 20 by converting the second private key. .. When the first terminal 20 receives the second electronic seal stamp, the storage medium 25 is required to use the first secret key, and the microprocessor 251 of the storage medium 25 is required to use the memory 252 of the storage medium 25. By obtaining the first private key from the user, converting the first private key to form a first electronic seal stamp to be transferred to the first terminal 20, the first terminal 20 simultaneously performs the first electronic seal stamp and the first electronic seal stamp. It has 2 electronic seal stamps. As a result, the private key verification step 12 is completed.

See FIGS. 1 and 6. Finally, the currency transfer step 13 is performed. The user forms transaction information including the transaction address and the transaction amount via the first terminal 20. The first terminal 20 forms transaction authorization information from the first electronic seal stamp, the second electronic seal stamp, and transaction information, and transfers the transaction authorization information to the transaction blockchain 24. The accuracy of both the first secret key and the second secret key is confirmed by verifying the first electronic seal stamp and the second electronic seal stamp. Further, the transaction blockchain 24 can move the digital currency of the transaction public key according to the information content of the transaction authorization information.

See FIGS. 7 and 8. In the second preferred embodiment, the digital currency transaction method 1 of the present invention similarly comprises the public key / private key setting step 10, the transaction public key setting step 11, the private key verification step 12, and the currency transfer step 13. Have. The difference from the first preferred embodiment is in the public key / private key setting step 10 and the transaction public key setting step 11. Since the flow of the steps of the private key verification step 12 and the currency transfer step 13 is the same as that of the first preferred embodiment, detailed description thereof will be omitted.

As shown in FIG. 7, at least one set of the first initial public key / private key that has not been set is stored in the first terminal 20 itself, which is a mobile phone, a computer, or a tablet PC, and is a consignment management unit. At least one set of the second initial public key / private key that is not set is stored in the second terminal 21 itself, which is said to be, and is not set in the third terminal 22 itself, which is the trust unit. At least one set of the third initial public key / private key is stored. Among them, when each of the first terminal 20, the second terminal 21, and the third terminal 22 receives the user information, the first terminal 20 sets one of the first initial public key / private key according to the user information. By being able to do so, the first public key / private key is converted into the first public key and the first private key. By setting one of the second initial public key / private key in the second terminal 21 according to the user information, the second initial public key / private key is converted into the second public key and the second private key. .. Similarly, the third terminal 22 sets one of the third initial public key / private key according to the user information, so that the third initial public key / private key becomes the third public key and the third private key. Will be converted. As a result, the public key / private key setting step 10 is completed.

As shown in FIG. 8, when the first terminal 20 forms the first public key, the first public key is transferred to the second terminal 21 and the third terminal 22, and the second terminal 21 is the second terminal 21. When forming the two public keys, the second public key is transferred to the first terminal 20 and the third terminal 22, and the third terminal 22 forms the third public key and then uses the third public key. Transfer to the first terminal 20 and the second terminal 21. Further, when all of the first terminal 20, the second terminal 21, and the third terminal 22 have the first public key, the second public key, and the third public key, respectively, the first terminal 20, the second terminal 21, and the third terminal 22 Each of the three terminals 22 forms the transaction public key by combining the first public key, the second public key, and the third public key with each other. When the first terminal 20, the second terminal 21, and the third terminal 22 all have the transaction public key, the transaction public key setting step 11 is completed.

See FIGS. 9 and 10. In the third preferred embodiment, the difference from the first preferred embodiment is in the private key verification step 12 and the currency transfer step 13. As shown in FIG. 9, when it is expressed that the digital asset of unknown source is moved to the transaction public key, the second terminal 21 as the consignment management unit transfers the user information stored in the collation database 211 to the trust unit. It is transferred to the third terminal 22 that is said to be, and the third terminal 22 converts the third private key after collating that the user information stored in the collation database 211 corresponds to the user information of the control database 221. By forming the third electronic seal stamp to be transferred to the second terminal 21, the second terminal 21 simultaneously has the second private key and the third electronic seal stamp. As a result, the private key verification step 12 is completed.

See FIG. When the currency transfer step 13 is performed, the second terminal 21, which is a consignment management unit, forms frozen information that freezes the flow of digital currency, and further converts the second secret key to form a second electronic seal stamp. To do. The second terminal 21 forms transaction restriction information from the second electronic seal stamp, the third electronic seal stamp, and the frozen information, and transfers the transaction restriction information to the transaction blockchain 24, whereby the transaction blockchain 24 becomes the second. The second electronic seal stamp and the third electronic seal stamp are converted so that the information contents of both the private key and the third private key are known. Further, the transaction blockchain 24 does not provide the transaction public key any more in accordance with the transaction restriction information, and further moves the digital currency of the transaction public key to a frozen account, whereby the digital currency of the transaction public key is obtained. Is not transferred to the thief, and the risk of property damage can be reduced.

See FIG. In the fourth preferred embodiment, the difference from the first preferred embodiment is that the digital currency transaction method 1 further includes a public key / private key resetting step 14 and a replacement step 15. See FIGS. 11 and 12. After the transaction public key setting step 11 is completed, the private key verification step 12 can be performed, and the public key / private key resetting step 14 can also be performed. As shown in the figure, when the user forgets the first private key, the user inputs the user information to the first terminal 20, and the first terminal 20 is different from the first private key according to the user information. The private key and the fourth public key corresponding to the fourth private key are set, and the first terminal 20 further transfers the fourth public key to the storage medium 25, whereby the memory of the storage medium 25 is stored. 252 deletes the first public key and stores the fourth public key. As a result, the public key / private key reset step 14 is completed.

However, it is for convenience of explanation that the first terminal 20 generates the fourth private key and the fourth public key according to the user information, that is, the second terminal 21 which is a consignment management unit is said. When the second private key is lost or the third terminal 22 which is regarded as a trust unit loses the third private key, the second terminal 21 and the third terminal 22 are combined with the fourth private key according to the user information. It is also possible to form the fourth public key. Among them, when the second terminal 21 forms the fourth public key, the second public key is further deleted, and on the contrary, the third terminal 22 forms the fourth public key. Further, the third public key is deleted.

See FIGS. 11 and 13. When the public key / private key resetting step 14 is completed, the memory 252 of the storage medium 25 has the second public key, the third public key, and the fourth public key, and the microprocessor of the storage medium 25. 251 forms a reset transaction public key by combining the second public key, the third public key, and the fourth public key, and the reset transaction public key does not have at least two electronic seals corresponding to the private key. And set the digital currency to a non-movable trading mode. After that, the microprocessor 251 transfers the reset transaction public key in the transaction mode to the first terminal 20, and the first terminal 20 further transfers the reset transaction public key to the second terminal 21, the third terminal 22, and the transaction blockchain. By transferring to 24, the first terminal 20, the second terminal 21, the third terminal 22, and the transaction blockchain 24 can all store the reset transaction public key.

See FIG. The first terminal 20 receives the collation information input and formed by the user, and transfers the collation information to the second terminal 21 and the third terminal 22. When the second terminal 21 and the third terminal 22 receive the collation information, the second terminal 21 confirms whether or not the collation information corresponds to the user information stored in the collation database 211, and the third terminal 22 Checks whether or not the collation information corresponds to the user information stored in the control database 221. When all of the second terminal 21 and the third terminal 22 confirm that the information content of the collation information corresponds to the information content of the user information, the second terminal 21 converts the second private key and the second An electronic seal stamp is formed, the second electronic seal stamp is transferred to the first terminal 20, and the third terminal 22 converts the third secret key to form the third electronic seal stamp, and the third electronic seal stamp is used. Transferred to the first terminal 20, the first terminal 20 transfers the second electronic seal stamp and the third electronic seal stamp to the transaction blockchain 24, and the transaction blockchain 24 has both the second secret key and the third secret key. The second electronic seal stamp and the third electronic seal stamp are verified so as to know the approval contents of. Further, the transaction blockchain 24 moves the digital currency of the transaction public key to the reset transaction public key to complete the replacement step 15.

The examples given above are for convenience of explanation and do not limit the present invention. All minor modifications and modifications made by those skilled in the art based on the claims and specification of the present invention without departing from the scope of the present invention shall be included in the following claims. ..

1 Digital currency transaction method 10 Public key / private key setting step 11 Transaction public key setting step 12 Private key verification step 13 Currency transfer step 14 Public key / private key reset step 15 Replacement step 2 Digital currency transaction system 20 First terminal 21 2nd terminal 211 Control database 212 User database 22 3rd terminal 221 Matching database 23 Internet 24 Trading blockchain 25 Storage medium 251 Microprocessor 252 Memory 253 Security chip 253a Processing unit

Claims (6)

The first terminal is provided by providing user information indicating a user ID, and the first terminal, the second terminal, and the third terminal each form a set of public key and private key corresponding to the user information. Has a first private key and a first public key, the second terminal has a second private key and a second public key, and the third terminal has a third private key and a third public key.・ Private key setting step and
The first terminal, the second terminal, and the third terminal acquire a transaction public key generated by combining the first public key, the second public key, and the third public key. The transaction public key is two or more of three, a first electronic seal corresponding to the first private key, a second electronic seal corresponding to the second private key, and a third electronic seal corresponding to the third private key. According to the transaction public key setting step, which can allow the movement of digital currency,
The collation information having the user information is provided, and whether the collation information corresponds to the user information is collated, and when the collation information corresponds to the user information, the first terminal, the second terminal, and the first terminal. A secret key verification step in which any of the three terminals acquires two or more of the first electronic seal stamp, the second electronic seal stamp, and the third electronic seal stamp.
By forming transaction information and acquiring two or more of the first electronic seal stamp, the second electronic seal stamp, and the third electronic seal stamp, the transaction public key becomes the transaction public key according to the transaction information. A digital currency trading method with multiple private key authorization, which comprises a currency transfer step that allows the transfer of digital currency. A public key / private key resetting step in which any of the first terminal, the second terminal, and the third terminal forms a fourth private key and a fourth public key corresponding to the user information.
Two of the first public key, the second public key, and the third public key are combined with the fourth public key to form a reset transaction public key, and the first public key, the first public key, and the third public key are combined. By acquiring the private key corresponding to two of the two public keys and the third public key, the digital currency of the transaction public key can be moved to the reset transaction public key. The digital currency trading method by the multiple private key authorization according to claim 1, further comprising. In the public key / private key setting step, the user information is transferred to the first terminal, the second terminal, and the third terminal, and the first terminal, the second terminal, and the third terminal are described. The digital currency trading method by multiple private key authorization according to claim 1, wherein after receiving the user information, each of the set of public key and private key is formed. In the public key / private key setting step, the first terminal, the second terminal, and the third terminal each have at least one set of an initial public key / private key that has not been set, and the initial public key. The digital currency trading method by multiple private key authorization according to claim 1, wherein the private key is set and converted into the public key and the private key according to the user information. In the transaction public key setting step, the first terminal has the first public key, the second public key, and the third public key by acquiring the second public key and the third public key. Then, the first public key, the second public key, and the third public key are combined to generate the transaction public key, and the transaction public key is transferred to the second terminal and the third terminal. The digital currency trading method by the multiple private key authorization according to claim 1, which is characterized. In the transaction public key setting step, each of the first terminal, the second terminal, and the third terminal acquires the first public key, the second public key, and the third public key, and obtains the first public key. The digital currency trading method by multiple private key authorization according to claim 1, wherein the public key, the second public key, and the third public key are combined to form the transaction public key.

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