JP2022519438A - Online and offline cryptocurrency transfer methods and their systems - Google Patents

Abstract

The online and offline virtual currency transfer methods and systems thereof of the present invention include a wallet storage module, an external transaction unit, and an approver side. The wallet storage module has an integrated unit and at least one online storage unit containing a plurality of transaction data, and a storage unit and an offline storage unit containing a plurality of digital data. The digital data has a cryptocurrency address and a cryptographic value. The external transaction unit and the numerical value generated by the integrated unit are received and used to detect the validity of the numerical value. The approver is used to receive the number to obtain a transaction fee. [Selection diagram] Fig. 1

Description

The present invention relates to an online and offline virtual currency transfer method and its system, and more particularly to a blockchain, a security mechanism, and an online and offline virtual currency transfer method and its system capable of reducing transaction fees.

It has always been an intuitive payment behavior for consumers to pay in cash immediately after consumption, but with the times and advances in scientific technology, various transaction payments such as cash cards, credit cards, electronic wallets, and virtual currencies have been made. With the advent of means, it is possible for people to have less real currency with existing transaction amounts. After the widespread use of smartphones (mobile devices), smartphones have become an indispensable tool in the lives of most people today. By storing credit card information in a smartphone or paying for consumption using an electronic wallet on a smartphone, it is possible to avoid carrying a large amount of real currency such as credit cards and cash. This will reduce the cost of withdrawing currency and improve the convenience of living.

In the present invention, the term "blockchain" includes all electronic devices, computers, or distributed ledger formats. These include, but are not limited to, blockchain and transaction chain technologies, authorized and unauthorized ledgers, shared ledgers and variants thereof. Although other blockchain applications have been proposed and developed, the most widely known blockchain technology is still the Bitcoin account application. For convenience of illustration, the present invention uses Bitcoin as a reference description, but is not limited to the use of Bitcoin blockchains, even when used in conjunction with alternative blockchain implementations and protocols. Note that it is within the scope of the invention.

In recent years, cryptocurrencies such as Bitcoin, Litecoin, Ripple, and other cryptocurrency payment methods have begun to emerge. Cryptocurrency refers to a currency system that uses digital accounting instead of cash transactions. Cryptocurrencies, for example, consumers do not have to carry large amounts of cash, merchants do not have to manually count cash, transaction processes are completed primarily through financial institutions or P2P systems, and so on. Safety can be effectively improved. In order to write a transaction to the blockchain, it is necessary to go through "approval", node (miner miner) and perform work to confirm that each transaction is valid and invalid transactions are rejected by the network. be. If the transaction is valid, the transaction will be written to the blockchain and the miner will get a fee to encourage the miner to continue mining in order to provide Bitcoin with sufficient computing power. Ensure network security. However, every time a transaction occurs, the consumer has to pay a fee to the miner, and this accumulation leads to a huge fee expenditure, so how to solve the above-mentioned conventional problems and drawbacks? However, the inventor of the present application and related manufacturers in the field are in the direction of urgently wanting to consider and improve.

Therefore, in order to efficiently solve the above-mentioned problems, a main object of the present invention is to provide an online and offline virtual currency transfer method capable of reducing transaction fees.

A next object of the present invention is to provide an online and offline virtual currency transfer system capable of reducing transaction fees.

In order to achieve the above object, the present invention has a step of providing a wallet storage module having at least one online storage unit and an offline storage unit, and the online storage unit has an integrated unit and a plurality of transaction data. The offline storage unit has a storage unit and a plurality of digital data, and each digital data has a step having a corresponding cryptocurrency address and a corresponding cryptographic value, and the online storage unit is an offline storage unit. When executing an internal transaction, that is, when a cryptocurrency address is transferred from an offline storage unit to an online storage unit, the cryptocurrency address is transmitted to and stored in the storage unit, and at the same time, the cryptocurrency address and the above are stored. A step of transmitting and storing a cryptographic value to the integrated unit, and when the online storage unit executes an external transaction with an external transaction unit, a corresponding numerical value is generated by the cryptographic value in the integrated unit, and further, the said Online and offline, including steps for the approver who processes the number to send the number to the external transaction unit and perform an auto-discovery transaction to verify the validity of the number in order to obtain a transaction fee. Provides a virtual currency transfer method.

To achieve the above object, the present invention includes an integrated unit and at least one online storage unit containing a plurality of transaction data, and a storage unit and an offline storage unit containing a plurality of digital data, wherein the digital data is encrypted. To obtain the transaction fee with a wallet storage module that has a currency address and a cryptographic value, an external transaction unit that receives the number generated by the integration unit and is used to detect the validity of the number. Provides an online and offline cryptocurrency transfer system, including an approver used to receive such figures.

According to the method of the present invention and the system thereof, when the user side executes an internal transaction, that is, when the cryptocurrency address is transferred from the offline storage unit to the online storage unit, the digital data is supported every time the internal transaction is executed. At the same time that the cryptocurrency address to be used is transmitted and stored in the storage unit, the cryptocurrency address and the cryptographic value are also transmitted and stored in the integrated unit of the online storage unit. When the user is executing an external transaction, the corresponding numerical value is generated by the encrypted value of the integrated unit, and the numerical value is transmitted to the external transaction unit to confirm whether the numerical value is valid or invalid. Perform an auto-discovery transaction.
When the value is confirmed as a valid transaction, the approver who processes the value can obtain the transaction fee, so that the user side is exempted from the problem of transaction fee incurred when performing an internal transaction and is external. The transaction fee only needs to be paid to the approver in the case of a transaction, and the conventional drawback of having to charge a fee for all transactions in the virtual currency system is greatly improved, and the effect of reducing the transaction fee can be obtained.

It is a system block diagram of a preferable embodiment of the present invention. It is a flowchart of the method of a preferable embodiment of this invention.

The above-mentioned object, configuration and functional features of the present invention will be described by preferred embodiments with reference to the accompanying drawings.

See FIG. FIG. 1 is a system block diagram of the online and offline virtual currency transfer system of the present invention. As shown in the figure, the system includes a wallet storage module 2, an external transaction unit 3, and an approver side 4, and the wallet storage module 2 has at least one online storage unit 20 and an offline storage unit 21. The online storage unit 20 includes an integrated unit 200 and a plurality of transaction data 201.
The offline storage unit 21 has a storage unit 210 and a plurality of digital data 211, the digital data 211 has a cryptocurrency address and a cryptographic value, and the external transaction unit 3 receives the numerical value generated by the integrated unit 200. The external transaction unit 3 is used to confirm the validity of the value, and the approver side 4 is used to receive the value to obtain the transaction fee.

See also FIG. FIG. 2 is a flowchart of the method of the present invention. The system is designed to include the following steps.
Step S1: Provide a wallet storage module. The wallet storage module has at least one online storage unit and one offline storage unit.
A user-side wallet storage module 2 is provided, where the user-side refers to, for example, a portable mobile device, a handheld electronic device, a desktop computer, or the like. The user side can perform an electronic transaction operation of the virtual currency system by using a portable mobile device, a handheld electronic device, or a desktop mobile application (app). The online storage unit 20 is an online wallet that is a wallet generated in a network state, and in the present invention, the offline storage unit 21 is an offline wallet for transmitting and receiving virtual currency (for example, Bitcoin) in a virtual currency system. Is.
The offline wallet may be a warm wallet, a cold wallet, or a light wallet, and in particular, the wallet storage module 2 may have one or more online storage units 20 and one or more offline storage units 21. , The same user side can have a plurality of online storage units 20 and offline storage units 21 in the wallet storage module 2, or a plurality of user sides can have a plurality of online storage units 20 and offline storage units 21, respectively. Can be done.
Step S2: The online storage unit has an integrated unit and a plurality of transaction data, the offline storage unit has a storage unit and a plurality of digital data, and each digital data has a corresponding cryptocurrency address and a corresponding cryptographic value. Has.
The online storage unit 20 further includes an integrated unit 200 and a plurality of transaction data 201, an offline storage unit 21 has a storage unit 210 and a plurality of digital data 211, and each digital data 211 has a corresponding cryptocurrency address. And have the corresponding cryptographic value. The integration unit 200 is functioning to organize and integrate the cryptocurrency address and the cryptographic value of each digital data 211, provide the cryptocurrency address and the cryptographic value, and store them internally.
In particular, transaction data 201 includes at least one account, at least one balance, at least one cryptocurrency address, at least one transaction record, or at least one configuration file, and each account has a cryptocurrency address. The cryptocurrency address is formed by guessing and calculating with the public key, and the public key is formed with the cryptographic value. In addition to the cryptocurrency address and cryptographic value described above, the digital data 211 also includes at least one account, at least one balance, at least one transaction record, or at least one configuration file. In addition, each account has a cryptocurrency address formed by guessing with a public key, and the public key is formed with a cryptographic value.
Although the integrated unit 200 is described as one in the present embodiment, it will be described in advance that two or more integrated units 200 may exist in actual use.
Step S3: When the online storage unit executes an internal transaction with the offline storage unit, that is, when the cryptocurrency address is transferred from the offline storage unit to the online storage unit, the cryptocurrency address is transferred to the storage unit and stored at the same time. The cryptocurrency address and cryptographic value are transferred and stored in the integrated unit.
When the user side executes an internal transaction with the offline storage unit 21 of the online storage unit 20, at this point, the cryptocurrency address of the offline storage unit 21 is transferred to and stored in the storage unit 210, and at the same time, it is offline. The cryptocurrency address and the cryptographic value in the storage unit 21 are transferred to the integrated unit 200 and stored. Therefore, every time the user executes an internal transaction, all of the cryptocurrency addresses and cryptographic values corresponding to the digital data 211 are stored in the integrated unit 200. Note that an internal transaction represents a step that is performed offline.
Step S4: When the online storage unit executes an external transaction with the external transaction unit, the corresponding value is generated by the encryption value of the integrated unit, and the value is sent to the external transaction unit to confirm the validity of the value. The automatic detection transaction is performed, and the approver who processes the numerical value can acquire the transaction fee.
When the user side executes an external transaction with the external transaction unit 3 in the online storage unit 20, a plurality of cryptographic values stored in the integrated unit 200 generate corresponding numerical values, and further, the numerical values are transmitted to the external transaction unit to obtain the corresponding numerical values. Perform an auto-discovery transaction to see if the number is valid or invalid.
Note that this transaction process is executed online to approve and confirm the validity of the numbers. In this embodiment, the external transaction unit 3 is a "blockchain" in the virtual currency system, and after approval by the external transaction unit 3, if the value is confirmed as a valid transaction, the approval side 4 that processes the value. Can get transaction fees.
Therefore, when the user is executing an internal transaction by the method of the present invention and after being combined with this system, each time the internal transaction is executed, the cryptocurrency address corresponding to the digital data 211 is stored in the storage unit 210. At the same time as being transferred and stored in, the cryptocurrency address and the cryptographic value are also transferred and stored in the integrated unit 200 of the online storage unit 20.
When the user is executing an external transaction, the encrypted value in the integrated unit 200 is generated as the corresponding numerical value, and the numerical value is sent to the external transaction unit 3 to check whether the numerical value is valid or invalid. Execute an auto-discovery transaction. If the value is confirmed to be a valid transaction, the approver 4 processing the value can obtain a transaction fee.

In this way, the user side can be exempted from the conventional problem that the transaction fee is charged even when performing the internal transaction, and therefore, the present invention only pays the transaction fee to the approver side 4 for the external transaction. It's fine. All transactions in the crypto system (whether internal or external) can significantly improve the traditional drawback of having to lose transaction fees and reduce transaction fees.

As described above, the present invention has been described in detail, but the above description is merely a preferred embodiment of the present invention and does not limit the scope of implementation of the present invention. That is, all equivalent changes and amendments made in accordance with the claims of the invention should be included in the claims of the present invention.

2 Wallet storage module 20 Online storage unit 200 Integration unit 201 Transaction data 21 Offline storage unit 210 Storage unit 211 Digital data 3 External transaction unit 4 Approved side S1 to S4 steps

Claims (10)

A step of providing a wallet storage module having at least one online storage unit and an offline storage unit.
The online storage unit has an integrated unit and a plurality of transaction data, the offline storage unit has a storage unit and a plurality of digital data, and each digital data corresponds to a corresponding cryptocurrency address. A step with a cryptographic value and
When the online storage unit executes an internal transaction with the offline storage unit, that is, when the cryptocurrency address is transferred from the offline storage unit to the online storage unit, the cryptocurrency address is transmitted to the storage unit and stored. At the same time, the step of transmitting and storing the cryptocurrency address and the cryptographic value to the integrated unit, and
When the online storage unit executes an external transaction with an external transaction unit, the corresponding numerical value is generated by the cryptographic value in the integrated unit, and the approval side that processes the numerical value obtains the transaction fee. To the external transaction unit and perform an auto-discovery transaction to verify the validity of the number, including online and offline cryptocurrency transfer methods. The first aspect of claim 1, wherein the online storage unit is an online wallet, the offline storage unit is an offline wallet, and the offline wallet is selected from a warm wallet, a cold wallet, or a light wallet. Online and offline cryptocurrency transfer methods. The online and offline virtual currency transfer method according to claim 1, wherein the internal transaction is executed in an offline state, and the external transaction is executed in an online state. The online and offline according to claim 1, wherein the transaction data includes at least one account, at least one balance, at least one cryptocurrency address, at least one transaction record, or at least one configuration file. Cryptocurrency transfer method. The online according to claim 4, wherein each of the accounts has a cryptocurrency address, the cryptocurrency address is formed by guessing and calculating with a public key, and the public key is formed with the cryptographic value. Offline cryptocurrency transfer method. The online and offline virtual currency transfer method according to claim 1, wherein the digital data includes at least one account, at least one balance, at least one transaction record, or at least one configuration file. The online according to claim 1, wherein each of the accounts has a cryptocurrency address, the cryptocurrency address is formed by guessing and calculating with a public key, and the public key is formed with the cryptographic value. Offline cryptocurrency transfer method. A wallet storage module having an integrated unit and at least one online storage unit containing a plurality of transaction data, and a storage unit and an offline storage unit containing a plurality of digital data, wherein the digital data has a cryptocurrency address and a cryptographic value. With the wallet storage module you have
With an external transaction unit that receives the number generated by the integration unit and is used to detect the validity of the number.
An online and offline cryptocurrency transfer system, including, with an approver used to receive such figures to obtain said transaction fees. The online storage unit is an online wallet.
The offline storage unit is an offline wallet.
The online and offline virtual currency transfer system according to claim 8, wherein the offline wallet is selected from a warm wallet, a cold wallet, or a light wallet. The digital data includes at least one account, at least one balance, at least one cryptocurrency address, at least one transaction record, or at least one configuration file.
Each of the accounts has the cryptocurrency address, and the cryptocurrency address is formed by guessing with a public key.
The public key is formed by the cryptographic value and is
The online and offline virtual currency transfer system according to claim 8, wherein the digital data includes at least one account, at least one balance, at least one transaction record, or at least one configuration file.

Images