CN111311252A - Virtual resource management method and block chain node equipment - Google Patents

Abstract

The embodiment of the application discloses a management method of virtual resources and block chain node equipment. Wherein the method comprises the following steps: the first block link point device receives a first notification message sent by the second block link point device, wherein the first notification message comprises account information of an electronic toll collection system account and a device identifier corresponding to the electronic toll collection system account; the first block chain link point equipment verifies the account information and the equipment identification according to the first notification message; and if the verification is successful, the first block link point device determines the target resource amount and transfers the target resource indicated by the target resource amount to the account of the electronic toll collection system. Adopt this application embodiment can add value to the ETC card through lending, and then more effective to the management of virtual resource for ETC pays fees more convenient.

Description

Virtual resource management method and block chain node equipment

Technical Field

The present application relates to the field of communications technologies, and in particular, to a method for managing virtual resources and a block link node device.

Background

With the acceleration of the urbanization process, the motorization and intellectualization of urban traffic and road traffic are enhanced. Electronic Toll Collection (ETC) is widely used for highway and bridge Toll Collection. However, there are some problems in charging for expressways and bridges through ETC. For example, when the driver travels to the ETC passageway, it is not enough to detect driver's ETC card balance, so the driver needs to be switched to artifical passageway by the ETC passageway and collect fee, leads to collecting fee the efficiency lower, causes the crowdedness of ETC card passageway. Therefore, how to manage the virtual resources in the ETC card makes the ETC payment more convenient and becomes a hot topic of research.

Disclosure of Invention

The embodiment of the application provides a management method of virtual resources and block chain link point equipment, and the ETC card can be recharged through lending, so that the virtual resources are effectively managed, and the ETC payment is more convenient.

In a first aspect, an embodiment of the present application provides a method for managing virtual resources, where the method includes: the method comprises the steps that a first block link point device receives a first notification message sent by a second block link point device, wherein the first notification message is used for indicating that the virtual resource amount in an electronic non-stop charging system account monitored by the second block link point device is smaller than a preset resource amount threshold value, and the first notification message comprises account information of the electronic non-stop charging system account and a device identifier corresponding to the electronic non-stop charging system account; the first block chain link point equipment verifies the account information and the equipment identification according to the first notification message; and if the verification is successful, the first block link point device determines the target resource amount and transfers the target resource indicated by the target resource amount to the account of the electronic toll collection system.

In a second aspect, an embodiment of the present application provides a block link node device, where the block link node device has a function of implementing the virtual resource management described in the first aspect. The functions can be realized by hardware, and the functions can also be realized by executing corresponding software by hardware. The hardware or software includes one or more modules corresponding to the above-described functions.

In one implementation, the block link point device includes a receiving module, a checking module, and a transmitting module. The receiving module is used for receiving a first notification message sent by the second block link point device, wherein the first notification message is used for indicating that the virtual resource amount in the electronic toll collection system account monitored by the second block link point device is smaller than a preset resource amount threshold, and the first notification message comprises account information of the electronic toll collection system account and a device identifier corresponding to the electronic toll collection system account. And the verification module is used for verifying the account information and the equipment identifier according to the first notification message. A determination module to determine a target resource amount. And the sending module is used for transferring the target resource indicated by the target resource amount to the electronic toll collection system account.

In a third aspect, embodiments of the present application provide a block-link point device that includes a processor and a memory, the processor and the memory coupled. A memory for storing a computer program. A processor for invoking a computer program for causing a blockchain node device to perform the method of issuing a ticket according to the first aspect.

In a fourth aspect, embodiments of the present application provide a computer-readable storage medium for storing a computer program for a block link point device, which includes a program for executing the above-mentioned first aspect.

According to the embodiment of the application, the first block link point device can determine that the balance in the account of the electronic toll collection system is insufficient by receiving the first notification message sent by the second block link point device. Correspondingly, the first block link point device verifies the account information and the device identifier included in the first notification message. If the verification is successful, the first block link point device transfers the target resource indicated by the target resource amount to the electronic toll collection system account, so that the electronic toll collection system account can acquire the virtual resource for payment quickly, the payment efficiency is improved, and the ETC payment is more convenient.

Drawings

In order to more clearly describe the technical solutions in the embodiments or background art of the present application, the drawings required to be used in the embodiments of the present application will be described below.

Fig. 1 is a schematic architecture diagram of a management system for virtual resources disclosed in an embodiment of the present application;

fig. 2 is a flowchart illustrating a method for managing virtual resources according to an embodiment of the present disclosure;

fig. 3 is a schematic flowchart of another virtual resource management method disclosed in an embodiment of the present application;

fig. 4 is a schematic diagram of a method for registering a user disclosed in an embodiment of the present application;

fig. 5 is a schematic diagram of a scenario for generating a first notification message according to an embodiment of the present application;

fig. 6 is a schematic diagram of another scenario for generating a first notification message disclosed in an embodiment of the present application;

FIG. 7 is a schematic block link point apparatus according to an embodiment of the present disclosure;

fig. 8 is a schematic structural diagram of another blockchain node device disclosed in an embodiment of the present application.

Detailed Description

The embodiments of the present application will be described below with reference to the drawings.

Currently, the toll collection of highways and bridges advocates the use of Electronic Toll Collection (ETC), which can reduce the workload of the man-made passage. The ETC is an electronic toll collection system, the system needs to install vehicle-mounted equipment carrying vehicle information on a vehicle, and when the vehicle enters an ETC special lane, a highway data acquisition system can read the vehicle information in the vehicle-mounted equipment to realize non-stop payment. However, there are also some problems with payment via ETC channels. For example, after a driver drives to an ETC channel, the driver finds that the balance of the ETC card is insufficient, and then the driver needs to switch from the ETC channel to a manual channel.

In order to improve the payment efficiency of the ETC channel and enable the payment of the ETC channel to be more convenient and fast, the application provides a management method of virtual resources and block chain link point equipment, and the management method of the virtual resources can be realized based on a block chain network.

The Block Chain (BC) is a set of decentralized infrastructure with distributed storage characteristics, and particularly is a data structure formed by data blocks in a linked list-like manner according to a time sequence, so that data which are in a sequential relationship and can be verified in a system can be safely stored, and the data cannot be tampered and counterfeited in a cryptographic manner. Generally, a traditional transaction model is a transaction model constructed based on centralized thinking, that is, on the premise that two transaction parties do not trust each other, the centralized formation of a third party is promoted, and the third party serves as an arbitrator to witness the activities of the two transaction parties in the transaction process. The decentralized feature of the blockchain technology means that in a blockchain network, each node device stores data, data redundancy is realized through distributed storage, all nodes can have the ability to maintain the safety of a database, and the whole transaction is autonomous and simplified.

In the context of introducing a block chain technique into the management of virtual resources, the method for managing virtual resources provided in the embodiment of the present application includes: the method comprises the steps that a first block link point device receives a first notification message sent by a second block link point device, wherein the first notification message is used for indicating that the virtual resource amount in an electronic non-stop charging system account monitored by the second block link point device is smaller than a preset resource amount threshold value, and the first notification message comprises account information of the electronic non-stop charging system account and a device identifier corresponding to the electronic non-stop charging system account; the first block chain link point equipment verifies the account information and the equipment identification according to the first notification message; and if the verification is successful, the first block link point device determines the target resource amount and transfers the target resource indicated by the target resource amount to the account of the electronic toll collection system.

It should be noted that both the first block link point device and the second block link point device may belong to a block link point device in a block chain network. In the method for managing virtual resources according to the embodiment of the present application, the first block-link point device may be a device corresponding to a lender, for example, the lender may be an Tencent finance platform or other third party lending platform, and the second block-link point device may be a device corresponding to a bank. The devices may include PCs (Personal computers), PDAs (tablet computers), cell phones, smart wearable devices, servers, and the like. The embodiment of the present application does not limit the first block link point device or the second block link point device in other scenarios.

As can be seen, the first block link point device receives the first notification message sent by the second block link point device, and verifies the account information and the device identifier in the first notification message. If the verification passes, the first block link point device determines that the user corresponding to the ETC account is a credible user, and then the first block link point device transfers the target resource amount to the ETC card, so that the ETC card can directly pay, the payment efficiency is improved, and the ETC payment is more convenient.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a management system for virtual resources according to an embodiment of the present disclosure. As shown in fig. 1, the management system of virtual resources includes a first block link node device, a second block link node device, a third block link node device, and a fourth block link node device, where:

the second block link point device may transmit a first notification message to the first block link point device, where the first notification message indicates that the amount of the virtual resource in the ETC account monitored by the second block link point device is smaller than the preset resource amount threshold, that is, the balance in the ETC account monitored by the second block link point device is insufficient, where the first notification message may include account information of the ETC account, such as an ETC card number, and the first notification message may include a device identifier corresponding to the ETC account, such as a vehicle license plate number bound to the ETC card. The first block link point device verifies the account information and the device identification, and if the verification is successful, the first block link point device determines that the user corresponding to the ETC account is a registered user, that is, the first block link point device can be lent to the ETC account. The target resource amount is determined by the first block link point device, and the target resource amount is transferred to an ETC account, so that the ETC card can pay conveniently, and the ETC can pay more conveniently.

In one implementation, after the first block link point device successfully verifies the account information and the device identifier, the first block link point device may further generate a prompt message and send the prompt message to a device held by the user. The prompt message includes loan information such as loan amount, payment duration, payment interest, and the like. Correspondingly, the first block chain node equipment receives a determination message returned by equipment held by a user, and executes the operation of determining the target resource amount. Alternatively, the device held by the user may be mounted on the first block link point device, that is, the first block link point device and the device held by the user are the same device, such as a mobile phone, a computer, and the like.

For example, the first block-link point device is a lender with lending capability, the second block-link point device is a bank, and the ETC account is a registered company a. If the vehicle a of company A drives to the expressway toll station, the balance shortage of the ETC card is detected through the ETC special channel. The bank may generate a first notification message based on the ETC card number and the license plate number of the vehicle a and transmit the first notification message to the lender. Correspondingly, the lender receives the first notification message, and can check the ETC card number and the license plate number of the vehicle a according to the first notification message, wherein the purpose of checking is to determine that the ETC account is a registered account, that is, the ETC account is a trusted account. If the lender verifies the ETC card number and the license plate number of the vehicle a, the lender can determine the target resource amount and transfer the target resource amount to an ETC account so as to be convenient for the ETC card to pay, and the ETC is more convenient to pay.

Referring to fig. 2, fig. 2 is a schematic flow chart of a method for managing virtual resources according to an embodiment of the present disclosure, where the method includes, but is not limited to, the following steps:

step S201: the first block chain node device receives a first notification message sent by the second block chain node device.

The first notification message is used for indicating that the virtual resource amount in the electronic toll collection system account monitored by the second block link point device is smaller than a preset resource amount threshold. The first notification message may include account information of the electronic toll collection system account and a device identifier corresponding to the electronic toll collection system account.

For example, the first block link point device is flight finance, the second block link point device is a bank, when the bank detects that an ETC account bound with the bank is about to pass through an expressway toll station and the balance in the ETC account is insufficient, the bank generates a first notification message according to an ETC card number of the ETC account and a license plate number bound with the ETC account, and sends the first notification message to the flight finance. Correspondingly, Tencent finance can supplement for the ETC card of ETC account, and then makes the ETC collect fee more convenient.

Step S202: and the first block link point device verifies the account information and the device identification of the electronic toll collection system account according to the first notification message.

The account information of the electronic toll collection system account can be a card number of an ETC card, the equipment identification can be vehicle information of a vehicle bound with the ETC account, and the vehicle information can be a vehicle type, a license plate number and the like.

In one implementation, the method for the first block link point device to check the account information and the device identifier according to the first notification message may include: the method comprises the steps that a first block chain link point device determines that account information and device identification exist in a block chain network, and an incidence relation exists between the account information and the device identification; and the first block link point device determines that the account information and the device identification are successfully verified.

Specifically, the account information and the device identifier that have been issued to the blockchain network are the information that the third blockchain node device has passed the audit. Therefore, if the first blockchain link point device can acquire the account information and the device identifier included in the first notification message from the blockchain network, and an association relationship exists between the account information and the device identifier. The first block link point device may determine that the account information and the device identifier are verified successfully, that is, the ETC account corresponding to the account information is authentic.

For example, the account information included in the first notification message received by the first block link point device is a, and the device identifier is b, and now the first block link point device queries the account information a in the block chain network, but what has an association relationship with the account information a is the device identifier a, but not the device identifier b, then the first block link point device may determine that the verification of the account information a and the device identifier b fails.

In another implementation, the method for the first block link point device to check the account information and the device identifier according to the first notification message may include: the first block link node device sends a first query request to the third block link node device, wherein the first query request comprises account information and a device identifier, so that the third block link node device can query whether the account information and the device identifier are stored in the third block link node device; the first block chain node equipment receives a query result sent by the third block chain node equipment; and if the inquiry result is that the account information and the equipment identification are stored in the third block chain node equipment and an incidence relation exists between the account information and the equipment identification, the first block chain node equipment determines that the account information and the equipment identification are successfully verified.

The third blockchain node device may be a blockchain node device in a blockchain network. The third block chain node device can register and audit the ETC account, and if the audit is passed, the third block chain node device can store account information and equipment identification of the ETC account.

For example, the first block link point device is an update finance, the third block link point device is a finance hall, the account information is a, and the device identifier is a. The update finance may now send the first query request to the third blockchain node device. Correspondingly, the third block chain node device queries, in the local storage, that the device identifier a has an association relationship with the account information a, and then the third block chain node device sends the query result to the first block chain node device. The first block link point device may determine that the verification of account information a and device identification a is successful.

Therefore, the first block link point device verifies the account information and the device identification, and the ETC account corresponding to the account information can be determined to be a reliable account.

Step S203: and if the verification is successful, the first block link point device determines the target resource amount.

For the target resource amount of the ETC card, the target resource amount may be a target amount of money to be charged to the ETC card, for example, the target amount is 50 yuan or the like.

In one implementation, a method for a first block-node device to determine a target amount of resources may include: and determining the resource amount corresponding to the account information as the target resource amount.

Optionally, the resource amount corresponding to the account information may be preset for a user corresponding to the ETC account. For example, the resource amount set when the user registers the ETC account is determined as the target resource amount. As another example, the amount of resources set by the user when the ETC card was used last time is determined as the target amount of resources. Optionally, the resource amount corresponding to the account information may be set for the first block link point device. The first block link point device may set the same resource amount as a target resource amount for all the ETC accounts, for example, set the resource amount to 2000 yuan for all the ETC accounts. The first block link point device may also set different resource amounts for different ETC accounts. For example, the target resource amount of the ETC account with a large ETC business demand may be set to be large, and the target resource amount of the ETC account with a small ETC business demand may be set to be small. Optionally, the first block link point device may also perform statistics on transaction records of the ETC account within a preset time period, and predict an appropriate resource amount as a target resource amount according to the transaction records. For example, the preset time period is the latest month, and if three transaction records in the latest month are 20 yuan, 70 yuan and 30 yuan, respectively, the first block link point device may obtain an average value of 60 yuan as the target resource amount.

In another implementation, a method for a first block-node device to determine a target amount of resources may include: and determining the resource amount of the first block link point device which is transferred to the ETC account for the last time as a target resource amount.

For example, if the amount of money that the first block-link point device has transferred to the ETC account for the last time is 99 dollars, the first block-link point device may use 99 dollars as the target resource amount.

Step S204: the first block link point device transfers the target resource indicated by the target resource amount to the ETC account.

Wherein the target resource indicated by the target resource amount is the loan amount. For example, the target resource is a loan fund, and the target resource amount means that the loan fund is 10 yuan.

According to the embodiment of the application, the first block link point device verifies the account information and the device identification included in the first notification information, and the ETC account corresponding to the account information can be determined to be a credible account. First block chain link point equipment shifts the target resource of target resource volume instruction to the ETC account, can make the ETC card directly collect fee, improves the efficiency of collecting fee for the ETC collects fee more conveniently.

Referring to fig. 3, fig. 3 is a schematic flowchart of another virtual resource management method according to an embodiment of the present application, where the method includes, but is not limited to:

step S301: and the first block chain link point device sends the account information and the user information to the third block chain node device.

The account information refers to a card number of the ETC card, and the user information refers to user information of a user corresponding to the ETC account. For example, if the user corresponding to the ETC account is a representative of an enterprise, the user information of the user may include: user name, contact, identification number, business name, business address, business contact, and the like.

In one implementation, a user corresponding to the ETC account may send account information and user information to the third block chain node device through other devices. That is, the device used by the user corresponding to the ETC account is not the same device as the first block link point device.

Step S302: the third blockchain node device compares the user information with the registration information.

Wherein the registration information is acquired by the third blockchain node device from the management device. The management device may or may not be a block link point device. The management device is configured to store at least one registration information.

Specifically, if the third block chain node device receives the user information of the user corresponding to the ETC account, the third block chain node device may acquire registration information about the user corresponding to the ETC account from the management device, and check the user information and the registration information.

Optionally, the method for verifying the registration information and the user information by the third blockchain node device may include: and the third block chain node equipment compares the registration information with the user information, and if the user information is the same as the registration information, the third block chain node equipment determines that the user information is credible. And the third blockchain node equipment issues the account information and the user information to the blockchain network.

Optionally, the method for verifying the registration information and the user information by the third blockchain node device may include: and the third block chain node equipment acquires registration information and historical credit information corresponding to the ETC account at the management equipment, and determines whether the user is credible or not according to the historical credit information. For example, if the user has a record of an untrusted user in the historical transactions, the historical credit information may indicate that the user is an untrusted user.

It can be seen that, on the premise that the third block chain node device determines that the user information of the user corresponding to the ETC account is credible, the third block chain node device determines that the registration of the ETC account is successful, all registered ETC accounts can be guaranteed to be credible users, and risk assessment is performed on the ETC account again by the aid of the first block chain node device.

Step S303: and if the account information and the user information are the same, the third blockchain node equipment issues the account information and the user information to the blockchain network.

The registration information is the same as the user information, that is, the user information of the user corresponding to the ETC account is a trusted user. The third blockchain node device may issue the account information and the user information to the blockchain network, that is, the third blockchain node device chains up the account information and the user information.

For example, please refer to fig. 4, where fig. 4 is a schematic diagram of a method for registering a user disclosed in the embodiment of the present application. As shown in fig. 4, a boy 401 is a user who needs to perform ETC account registration, a house 402 represents a financial hall, and a house 403 represents a business office. Wherein, the user can send account information and the user information of ETC account to financial hall. Correspondingly, the financial hall acquires the registration information corresponding to the user information from the business bureau. And the financial hall compares the user information with the registration information, and if the user information is the same as the registration information, the financial hall issues the account information and the user information to the block chain network.

Step S304: the fourth block-link point device sends the second notification message to the first block-link point device.

Wherein the second notification message indicates a distance between the fourth block-link point device and the charging device. The second notification message may include a card number of the ETC card, a device identifier, an associated account, which may be a bank card, and the like. The fourth block link node can be a mobile phone, a computer or a vehicle-mounted device.

For example, please refer to fig. 5, fig. 5 is a schematic view of a scenario for generating a first notification message disclosed in the embodiment of the present application. As shown in fig. 5, the fourth block link point device is an on-board device mounted on the vehicle 501, and the vehicle 501 may represent a vehicle of a company. The first block link point device is device 502, and device 502 may represent flight finance. The toll device is a toll device 503 at a toll station of an expressway, and the toll device 503 is used for charging an expressway fee for the vehicle.

When the vehicle 501 travels a certain distance of the ETC dedicated lane, for example, when the vehicle 501 is 100 meters away from the toll collection device, the on-board device mounted in the vehicle 501 may transmit the second notification message to the flight finance device 502. Optionally, the second notification message may be a distance between the vehicle 501 and the toll device, and optionally, the second notification message may be positioning information of the vehicle 501, such as GPS positioning and the like. It is noted that, when the vehicle 501 has not yet traveled to the toll collection device 503, the in-vehicle device transmits a second notification message to the device 502 corresponding to the flight finance, so that the flight finance can perform subsequent operations in advance. When the vehicle 501 travels to the toll collection device 503, the vehicle 501 can pass through without stopping, so that the ETC payment efficiency is improved, and the congestion of an ETC channel is avoided.

In one implementation, the first block chain node device receives the second notification message, may further determine the reliability of the second notification message, and when determining that the second notification message is a reliable notification message, perform step S305.

For example, the fourth block link point device may be a mobile phone of a driver of the vehicle, the first block link point device may be flight finance, and the second notification message may include a bank card to which the ETC account is bound. And if so, the flight finance determines that the received second notification message is credible.

Step S305: and if the distance between the fourth block link point device and the charging device is smaller than the preset distance threshold, the first block link point device sends the resource quantity acquisition request to the second block link point device.

The resource amount obtaining request comprises identity information, the identity information comprises account information, equipment identification or an associated account, and the associated account can be a bank card number associated with the account information. The preset distance threshold may be preset for the first block link point device or for the fourth block link point device, for example, the preset distance threshold is 100 meters, 200 meters, and so on.

When the first block link point device determines that the distance between the fourth block link point device and the charging device is smaller than the preset distance threshold, the first block link point device determines that the fourth block link point device is about to perform the charging operation. The first block link point device may send a resource amount acquisition request to the second block link point device so that the first block link point device acquires the balance in the ETC account.

Step S306: the first block link point device sends a resource amount acquisition request to the second block link point device.

In one implementation, the first block link point device may further send the resource amount acquisition request to the second block link point device after the fourth block link point device successfully pays the fee at the charging device. Specifically, the first block link point device receives a third notification message sent by the second block link point device, wherein the third notification message is used for indicating that the ETC account is successfully paid.

For example, please refer to fig. 6, where fig. 6 is a schematic view of a scenario for generating a first notification message disclosed in the embodiment of the present application. As shown in fig. 6, the fourth block link point device may be an on-board device mounted on a vehicle 601, the second block link point device may be a device 602, the device 602 may be a bank, the first block link point device may be a device 603, and the device 603 may be flight finance. After the vehicle 601 passes through the toll collection device 604, the bank can detect that the bank card bound by the ETC card has a fee deduction record. The bank generates a third notification message and sends the third notification message to the Tencent finance. The Tengcong finance sends a resource amount acquisition request to the bank so as to determine whether to debit or credit the ETC account.

Step S307: and the second block link point equipment generates a first notification message when detecting that the virtual resource amount in the electronic toll collection system account is smaller than a preset resource amount threshold value according to the identity information.

The virtual resource amount comprises a balance in the ETC account, the preset resource amount threshold is a threshold amount, that is, when the second block link point device detects that the balance in the ETC account is smaller than the preset amount, the second block link point generates a first notification message.

Optionally, the preset resource amount threshold may be set by the first block link point device, where the first block link point device may set the same amount of money as the preset resource amount threshold for all the ETC accounts, and the first block link point device may also set different amounts of money as the preset resource amount threshold for different ETC accounts. Alternatively, the preset resource amount threshold may be set by the fourth block link point device.

Step S308: the second block-link point device sends the first notification message to the first block-link point device.

Step S309: the first block link point device verifies the account information and the device identification.

Step S310: and if the verification is passed, the first block chain node equipment transfers the target resource indicated by the target resource amount to the electronic toll collection system account.

It should be noted that the implementation process of step S308 to step S310 is similar to the implementation process of step S201 to step S204, and details of the embodiment of the present application are not repeated herein.

It can be seen that through this application embodiment first block chain link point equipment can be interacted with second block chain link point equipment or fourth block chain link point equipment, whether confirm before ETC card traveles to the ETC passageway that whether need borrow the ETC account, can improve the efficiency that ETC paid fees, avoid the crowded of ETC passageway.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a block link point device according to an embodiment of the present disclosure, where the block link point device 70 is used to execute steps executed by a first block link point device in the method embodiments corresponding to fig. 2 to fig. 3, and the block link point device 70 may include a receiving module 701, a checking module 702, and a sending module 704. Each module in the block link point device 70 is specifically configured to:

the receiving module 701 is configured to receive a first notification message sent by the second block link point device, where the first notification message is used to indicate that the virtual resource amount in the electronic toll collection system account monitored by the second block link point device is smaller than a preset resource amount threshold, and the first notification message includes account information of the electronic toll collection system account and a device identifier corresponding to the electronic toll collection system account;

a verification module 702, configured to verify the account information and the device identifier according to the first notification message;

a determining module 703, configured to determine a target resource amount;

a sending module 704, configured to transfer the target resource indicated by the target resource amount to an account of the electronic toll collection system.

In one implementation, the first and second block link point devices belong to a block chain network;

when verifying the account information and the device identifier according to the first notification message, the verifying module 702 is specifically configured to: determining account information and equipment identification in a block chain network, and determining that an incidence relation exists between the account information and the equipment identification;

and determining that the account information and the equipment identification are verified successfully.

In an implementation manner, when verifying the account information and the device identifier according to the first notification message, the verifying module 702 is specifically configured to: the sending module 704 sends a first query request to the third blockchain node device, where the first query request includes account information and a device identifier, so that the third blockchain node device queries whether the account information and the device identifier are stored in the third blockchain node device;

the receiving module 701 receives a query result sent by the third blockchain node device;

and if the inquiry result is that the account information and the equipment identification are stored in the third block chain node equipment and an incidence relation exists between the account information and the equipment identification, determining that the account information and the equipment identification are successfully verified.

In one implementation, before the receiving module 701 receives the first notification message sent by the second block-link node device, the receiving module is further configured to: receiving a second notification message sent by the fourth block link point device, wherein the second notification message is used for indicating the distance between the fourth block link point device and the charging device;

if the distance between the third block link node device and the charging device is smaller than the preset distance threshold, the sending module 704 sends a resource amount obtaining request to the second block link node device, where the resource amount obtaining request includes identity information, and the identity information includes account information, a device identifier, or an associated account, so that the second block link node device generates a first notification message when detecting that the virtual resource amount in the electronic toll collection system account is smaller than the preset resource amount threshold according to the identity information.

In one implementation, before the receiving module 701 receives the first notification message sent by the second block-link node device, the receiving module is further configured to: receiving a third notification message sent by the second block chain link point device, wherein the third notification message is used for indicating that the account payment of the electronic toll collection system is successful;

the sending module 704 sends the resource amount obtaining request to the second block node point device, where the resource amount obtaining request includes identity information, and the identity information includes account information, device identification, or an associated account, so that the second block node point device generates a first notification message according to the identity information when detecting that the virtual resource amount in the electronic toll collection system account is smaller than a preset resource amount threshold.

In one implementation, before the receiving module 701 receives the first notification message sent by the second block-link node device, the sending module 704 is further configured to: and sending the account information and the user information corresponding to the electronic toll collection system account to a third block chain node device, so that the third block chain node device issues the account information and the user information corresponding to the electronic toll collection system account to a block chain network when determining that the registration information acquired from the management device is the same as the user information corresponding to the electronic toll collection system account, and the management device is used for storing the registration information.

In an implementation manner, when determining the target resource amount, the determining module 703 is specifically configured to: and determining the resource amount corresponding to the account information as the target resource amount.

In an implementation manner, when determining the target resource amount, the determining module 703 is specifically configured to: the amount of the resource that the sending module 704 has last transferred to the ETC account is determined as the target amount of the resource.

It should be noted that details that are not mentioned in the embodiment corresponding to fig. 7 and specific implementation manners of the steps executed by each module may refer to the embodiments shown in fig. 2 to fig. 3 and the foregoing details, and are not described again here.

Referring to fig. 8, fig. 8 is a schematic structural diagram of another block chain node device according to an embodiment of the present disclosure. The block link node device 80 comprises a processor 801, a memory 802, and a communication interface 803, wherein the processor 801, the memory 802, and the communication interface 803 are connected by one or more communication buses.

The processor 801 is configured to support the block-link point device to perform the corresponding functions of the first block-link point device in the method described in fig. 2 to 3. The Processor 801 may be a Central Processing Unit (CPU), a Network Processor (NP), a hardware chip, or any combination thereof.

The memory 802 is used for storing program codes and the like. The Memory 802 may include volatile Memory (volatile), such as Random Access Memory (RAM); the Memory 802 may also include a non-volatile Memory (non-volatile Memory), such as a Read Only Memory (ROM), a flash Memory (flash Memory), a Hard Disk Drive (HDD) or a Solid State Drive (SSD); the memory 802 may also comprise a combination of the above-described types of memory.

The communication interface 803 is used for receiving and sending data, for example, the communication interface 803 is used for receiving a first notification message sent by a second block node device, or the communication interface 803 is used for receiving a third notification message sent by a second block node device, or the like, or the communication interface 803 is used for transferring a target resource indicated by a target resource amount to an electronic toll collection system account, or the like.

In the embodiment of the present application, the block link point device 80 includes a plurality of communication interfaces, wherein the communication interface for transmitting data and the communication interface for receiving data may not be the same communication interface.

The processor 801 may call the program code stored in the memory 802 to perform the following operations:

the communication interface 803 is configured to receive a first notification message sent by the second block link point device, where the first notification message is used to indicate that the virtual resource amount in the electronic toll collection system account monitored by the second block link point device is smaller than a preset resource amount threshold, and the first notification message includes account information of the electronic toll collection system account and a device identifier corresponding to the electronic toll collection system account;

the processor 801 is configured to verify the account information and the device identifier according to the first notification message;

the processor 801 is further configured to determine a target resource amount by the first block link point device if the verification is successful;

a communication interface 803 for transferring the target resource indicated by the target resource amount to the ETC account.

In one implementation, the first and second block link point devices belong to a block chain network;

when verifying the account information and the device identifier according to the first notification message, the processor 801 is specifically configured to: determining account information and equipment identification in a block chain network, and determining that an incidence relation exists between the account information and the equipment identification;

and determining that the account information and the equipment identification are verified successfully.

In one implementation, when the processor 801 verifies the account information and the device identifier according to the first notification message, the communication interface 803 is specifically configured to: sending a first query request to the third block chain node device, where the first query request includes account information and a device identifier, so that the third block chain node device queries whether the account information and the device identifier are stored in the third block chain node device;

a communication interface 803, configured to receive a query result sent by a third blockchain node device;

and if the inquiry result is that the account information and the equipment identification are stored in the third block chain node equipment and an incidence relation exists between the account information and the equipment identification, the first block chain node equipment determines that the account information and the equipment identification are successfully verified.

In one implementation, before receiving the first notification message sent by the second block-link node device, the communication interface 803 is further configured to: receiving a second notification message sent by the fourth block link point device, wherein the second notification message is used for indicating the distance between the fourth block link point device and the charging device;

if the distance between the third block link node device and the charging device is smaller than the preset distance threshold, the communication interface 803 sends a resource amount obtaining request to the second block link node device, where the resource amount obtaining request includes identity information, and the identity information includes account information, a device identifier, or an associated account, so that the second block link node device generates a first notification message when detecting that the virtual resource amount in the electronic toll collection system account is smaller than the preset resource amount threshold according to the identity information.

In one implementation, before receiving the first notification message sent by the second block-link node device, the communication interface 803 is further configured to: receiving a third notification message sent by the second block chain link point device, wherein the third notification message is used for indicating that the account payment of the electronic toll collection system is successful;

and sending a resource quantity acquisition request to the second block link point device, wherein the resource quantity acquisition request comprises identity information, and the identity information comprises account information, a device identifier or an associated account, so that the second block link point device generates a first notification message when detecting that the virtual resource quantity in the electronic toll collection system account is smaller than a preset resource quantity threshold value according to the identity information.

In one implementation, before receiving the first notification message sent by the second block-link node device, the communication interface 803 is further configured to: and sending the account information and the user information corresponding to the electronic toll collection system account to a third block chain node device, so that the third block chain node device issues the account information and the user information corresponding to the electronic toll collection system account to a block chain network when determining that the registration information acquired from the management device is the same as the user information corresponding to the electronic toll collection system account, and the management device is used for storing the registration information.

In one implementation, the processor 801, when determining the target resource amount, is specifically configured to: and determining the resource amount corresponding to the account information as the target resource amount.

In one implementation, the processor 801, when determining the target resource amount, is specifically configured to: and determining the resource amount of the first block link point device which is transferred to the ETC account for the last time as a target resource amount.

Further, the processor 801 may further cooperate with the communication interface 803 to execute operations corresponding to the first block link point device in the method embodiments shown in fig. 2 to fig. 3, which may be referred to the description of the method embodiments and will not be described herein again.

The present invention also provides a computer readable storage medium, which can be used to store a computer program for the block-link point device in the embodiments shown in fig. 2 to 3, and which contains a program designed for the first block-link point device in the above embodiments.

The computer readable storage medium includes, but is not limited to, flash memory, hard disk, solid state disk.

An embodiment of the present application further provides a computer program product, and when the computer program product is executed by a computer device, the method for managing virtual resources designed for the first block-link node device in the embodiments of fig. 2 to 3 may be executed.

There is also provided in an embodiment of the present application a chip, including a processor and a memory, where the memory is used to store a computer program, the processor is used to call and run the computer program from the memory, and the computer program is used to implement the method in the above method embodiment.

Those of ordinary skill in the art would appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware or combinations of computer software and electronic hardware. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

In the above embodiments, the implementation may be wholly or partially realized by software, hardware, firmware, or any combination thereof. When implemented in software, may be implemented in whole or in part in the form of a computer program product. The computer program product includes one or more computer instructions. When loaded and executed on a computer, cause the processes or functions described in accordance with the embodiments of the application to occur, in whole or in part. The computer may be a general purpose computer, a special purpose computer, a network of computers, or other programmable device. The computer instructions may be stored in or transmitted over a computer-readable storage medium. The computer instructions may be transmitted from one website site, computer, server, or data center to another website site, computer, server, or data center via wired (e.g., coaxial cable, fiber optic, Digital Subscriber Line (DSL)) or wireless (e.g., infrared, wireless, microwave, etc.). The computer-readable storage medium can be any available medium that can be accessed by a computer or a data storage device, such as a server, a data center, etc., that incorporates one or more of the available media. The usable medium may be a magnetic medium (e.g., floppy Disk, hard Disk, magnetic tape), an optical medium (e.g., DVD), or a semiconductor medium (e.g., Solid State Disk (SSD)), among others.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. A method for managing virtual resources, comprising:

a first block link point device receives a first notification message sent by a second block link point device, wherein the first notification message is used for indicating that the virtual resource amount in an electronic toll collection system account monitored by the second block link point device is smaller than a preset resource amount threshold value, and the first notification message comprises account information of the electronic toll collection system account and a device identifier corresponding to the electronic toll collection system account;

the first block chain link point device verifies the account information and the device identification according to the first notification message;

and if the verification is successful, the first block link point device determines the target resource amount and transfers the target resource indicated by the target resource amount to the electronic toll collection system account.

2. The method of claim 1, wherein the first and second block-link point devices belong to a block chain network;

the first block link point device verifies the account information and the device identifier according to the first notification message, including:

the first block chain link point device determines that the account information and the device identification exist in the block chain network, and an association relationship exists between the account information and the device identification;

the first block link point device determines that the account information and the device identification are verified successfully.

3. The method of claim 1, wherein the first block-node device verifying the account information and the device identification according to the first notification message comprises:

the first block link node device sends a first query request to a third block link node device, where the first query request includes the account information and the device identifier, so that the third block link node device queries whether the account information and the device identifier are stored in the third block link node device;

the first block chain node device receives a query result sent by the third block chain node device;

if the inquiry result is that the account information and the equipment identifier are stored in the third block chain node equipment and an incidence relation exists between the account information and the equipment identifier, the first block chain node equipment determines that the account information and the equipment identifier are successfully verified.

4. The method of claim 1, wherein before the first block-node device receives the first notification message sent by the second block-node device, further comprising:

the first block link point device receives a second notification message sent by a fourth block link point device, wherein the second notification message is used for indicating the distance between the fourth block link point device and a charging device;

if the distance between the fourth block link point device and the charging device is smaller than a preset distance threshold, the first block link point device sends a resource quantity obtaining request to the second block link point device, wherein the resource quantity obtaining request comprises identity information, and the identity information comprises account information, device identification or an associated account, so that the second block link point device generates the first notification message according to the identity information when detecting that the virtual resource quantity in the electronic toll collection system account is smaller than the preset resource quantity threshold.

5. The method of claim 1, wherein before the first block-node device receives the first notification message sent by the second block-node device, further comprising:

the first block link point device receives a third notification message sent by the second block link point device, wherein the third notification message is used for indicating that the account of the electronic toll collection system is successfully paid;

the first block link point device sends the resource amount obtaining request to the second block link point device, where the resource amount obtaining request includes identity information, and the identity information includes the account information, the device identifier, or an associated account, so that the second block link point device generates the first notification message according to the identity information when detecting that the virtual resource amount in the electronic toll collection system account is smaller than the preset resource amount threshold.

6. The method according to any one of claims 1 to 5, wherein before the first block-link point device receives the first notification message sent by the second block-link point device, the method further comprises:

the first block link point device sends the account information and the user information corresponding to the electronic toll collection system account to the third block link node device, so that the third block link node device issues the account information and the user information corresponding to the electronic toll collection system account to a block link network when determining that the registration information acquired from a management device is the same as the user information corresponding to the electronic toll collection system account, and the management device is used for storing the registration information.

7. The method of claim 1, wherein the first block-node device determines a target amount of resources, comprising:

and determining the resource amount corresponding to the account information as the target resource amount.

8. The method of claim 1, wherein the first block-node device determines a target amount of resources, comprising:

determining the resource amount of the first block link point device which is transferred to the ETC account for the last time as the target resource amount.

9. A block link point apparatus comprising means for performing the method of any one of claims 1 to 8.

10. A block link point device comprising a processor coupled with a memory,

the memory for storing a computer program;

the processor is configured to invoke the computer program to cause the blockchain node device to perform the method according to any one of claims 1 to 8.

Images