CN116229646A - Digital currency red packet processing method and device - Google Patents

Abstract

The invention discloses a digital currency red envelope processing method and device, and relates to the technical field of digital currency. One embodiment of the method comprises the following steps: receiving a red packet sending instruction submitted by a sender; respectively sending red packets to each receiving party vehicle-mounted client; and calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule. The embodiment can enrich the in-car use scene of the digital currency wallet and enhance the viscosity of a user.

Description

Digital currency red packet processing method and device

Technical Field

The invention relates to the technical field of computers, in particular to a digital currency red packet processing method and device.

Background

Along with the development of intelligent automobiles, the current trend of intelligent cabins is multi-screen, besides instrument panels and central control screens, exclusive screens are also arranged on copilot seats and rear passengers of automobiles, and users can interact with automobile computers and screens in the cabins in a voice, touch and other modes.

The digital currency wallet realized based on the security unit (SE) has high security, the carrying SE can support close-range communication under the offline condition that the carrying SE can not communicate with the service platform temporarily, such as C-V2X (Cellular Vehicle-to-Everything) payment, and the dual offline payment of the Vehicle-mounted SE digital currency wallet and the Vehicle-mounted SE or road side SE digital currency wallet can be realized, so that the method is fast, safe and convenient.

In the process of implementing the present invention, the inventor finds that at least the following problems exist in the prior art:

there is currently a lack of digital currency based car wallets.

Disclosure of Invention

In view of the above, the embodiments of the present invention provide a method and an apparatus for processing digital currency red packets, so as to enrich the in-car usage scenarios of digital currency wallets and enhance the user's viscosity.

To achieve the above object, according to an aspect of the embodiments of the present invention, there is provided a digital money packet processing method applied to a sender vehicle-mounted client, including:

receiving a red packet sending instruction submitted by a sender;

respectively sending red packets to each receiving party vehicle-mounted client;

and calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule.

Optionally, calculating the amount of the red packet corresponding to the vehicle-mounted client of each receiver according to the red packet receiving response returned by the vehicle-mounted client of each receiver and the distribution rule, including:

receiving red packet receiving responses returned by the vehicle-mounted clients of the receivers;

calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule;

And associating the vehicle-mounted client of each receiver with the corresponding red packet amount.

Optionally, the red packet receiving response includes an on-board digital money wallet address and a user identification, wherein the user identification includes an on-board digital money wallet identification, an on-board digital money wallet account, a license plate number, or a cell phone number.

Optionally, after associating the vehicle-mounted client of each receiver and the corresponding red packet amount thereof, the method further comprises:

respectively sending corresponding red packet amounts to the vehicle-mounted clients of all the receivers;

deducting a corresponding red-envelope amount from the sender's digital money wallet;

and storing the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the local.

Optionally, after storing the association relationship between the amount of the red packet corresponding to the vehicle-mounted client of each receiver and the vehicle-mounted digital currency wallet address returned by the vehicle-mounted client of each receiver locally, the method further includes:

and uploading the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to a server so as to transfer the red packet amount corresponding to each receiver vehicle-mounted client into the corresponding vehicle-mounted digital currency wallet.

Optionally, calculating the amount of the red packet corresponding to each receiving vehicle-mounted client according to the red packet receiving response returned by each receiving vehicle-mounted client and the distribution rule, including:

and calculating the amount of the red packet corresponding to the vehicle-mounted client of each receiving party according to the return sequence of the receiving response of each red packet, the amount of the remaining undetached red packet and the distribution rule.

Optionally, the red packet sending instruction carries the amount of the red packet to be disassembled, the number of the red packets to be disassembled and the user identification corresponding to the vehicle-mounted client of each receiver submitted by the sender.

Optionally, receiving a red packet sending instruction submitted by the sender, including:

creating a user group, wherein the user group comprises at least one user identifier;

and receiving a red packet sending instruction aiming at the user group and submitted by a sender.

Optionally, sending the red packet to each receiving side vehicle-mounted client respectively includes:

broadcasting a red packet message to each receiver vehicle-mounted client; wherein the red packet message includes a red packet and encrypted individual user identifications.

In addition, according to an aspect of the embodiment of the present invention, there is provided a digital money red packet processing method applied to a receiving party vehicle-mounted client, including:

Receiving a red packet sent by a vehicle-mounted client of a sender;

returning a red packet receiving response to the sender vehicle-mounted client; the red packet receiving response comprises a vehicle-mounted digital currency wallet address and a user identification, wherein the user identification comprises a vehicle-mounted digital currency wallet identification, a vehicle-mounted digital currency wallet account, a license plate number or a mobile phone number.

Optionally, after the red packet receiving response is returned to the sender vehicle-mounted client, the method further comprises:

and receiving the amount of the red packet returned by the sender vehicle-mounted client.

Optionally, receiving the red packet sent by the sender vehicle-mounted client includes:

receiving a red packet message broadcast by a vehicle-mounted client of a sender; wherein the red packet message comprises a red packet and each encrypted user identifier;

decrypting each encrypted user identifier;

judging whether user identifiers corresponding to the vehicle-mounted client of the receiving party exist in the user identifiers or not; if yes, receiving the red packet and prompting a receiver; if not, ignoring the red packet.

In addition, according to another aspect of the embodiment of the present invention, there is provided a digital money red packet processing apparatus provided at a sender-side vehicle-mounted client, including:

The instruction module is used for receiving a red packet sending instruction submitted by a sender;

the sending module is used for respectively sending the red packets to the vehicle-mounted clients of all the receivers;

and the processing module is used for calculating the red packet amount corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule.

Optionally, the processing module is further configured to:

receiving red packet receiving responses returned by the vehicle-mounted clients of the receivers;

calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule;

and associating the vehicle-mounted client of each receiver with the corresponding red packet amount.

Optionally, the red packet receiving response includes an on-board digital money wallet address and a user identification, wherein the user identification includes an on-board digital money wallet identification, an on-board digital money wallet account, a license plate number, or a cell phone number.

Optionally, the processing module is further configured to:

after the vehicle-mounted client sides of all the receivers and the corresponding red packet amount are associated, respectively sending the corresponding red packet amount to the vehicle-mounted client sides of all the receivers;

Deducting a corresponding red-envelope amount from the sender's digital money wallet;

and storing the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the local.

Optionally, the processing module is further configured to:

and after the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client is stored locally, uploading the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to a server so as to transfer the red packet amount corresponding to each receiver vehicle-mounted client into the corresponding vehicle-mounted digital currency wallet.

Optionally, the processing module is further configured to:

and calculating the amount of the red packet corresponding to the vehicle-mounted client of each receiving party according to the return sequence of the receiving response of each red packet, the amount of the remaining undetached red packet and the distribution rule.

Optionally, the red packet sending instruction carries the amount of the red packet to be disassembled, the number of the red packets to be disassembled and the user identification corresponding to the vehicle-mounted client of each receiver submitted by the sender.

Optionally, the instruction module is further configured to:

creating a user group, wherein the user group comprises at least one user identifier;

and receiving a red packet sending instruction aiming at the user group and submitted by a sender.

Optionally, the sending module is further configured to:

broadcasting a red packet message to each receiver vehicle-mounted client; wherein the red packet message includes a red packet and encrypted individual user identifications.

In addition, according to another aspect of the embodiment of the present invention, there is provided a digital money red packet processing apparatus provided at a receiving side vehicle-mounted client, including:

the receiving module is used for receiving the red packet sent by the vehicle-mounted client of the sender;

the response module is used for returning a red packet receiving response to the sender vehicle-mounted client; the red packet receiving response comprises a vehicle-mounted digital currency wallet address and a user identification, wherein the user identification comprises a vehicle-mounted digital currency wallet identification, a vehicle-mounted digital currency wallet account, a license plate number or a mobile phone number.

Optionally, the receiving module is further configured to:

and after a red packet receiving response is returned to the sender vehicle-mounted client, receiving the red packet amount returned by the sender vehicle-mounted client.

Optionally, the receiving module is further configured to:

receiving a red packet message broadcast by a vehicle-mounted client of a sender; wherein the red packet message comprises a red packet and each encrypted user identifier;

decrypting each encrypted user identifier;

judging whether user identifiers corresponding to the vehicle-mounted client of the receiving party exist in the user identifiers or not; if yes, receiving the red packet and prompting a receiver; if not, ignoring the red packet.

According to another aspect of the embodiment of the present invention, there is also provided a vehicle machine including:

one or more processors;

storage means for storing one or more programs,

the one or more processors implement the method of any of the embodiments described above when the one or more programs are executed by the one or more processors.

According to another aspect of an embodiment of the present invention, there is also provided a computer readable medium having stored thereon a computer program which, when executed by a processor, implements the method according to any of the embodiments described above.

One embodiment of the above invention has the following advantages or benefits: because the technical means of respectively sending the red packets to the vehicle-mounted clients of all the receivers and calculating the red packet amount corresponding to the vehicle-mounted clients of all the receivers according to the red packet receiving response and the distribution rule returned by the vehicle-mounted clients of all the receivers is adopted, the technical problem that an interaction mode based on a digital currency automobile wallet is lacking in the prior art is solved. The embodiment of the invention can realize that the user can construct a red packet group through the digital currency wallets and send the red packet in the group, the digital currency wallets in the group rob to pick the red packet, the interaction among multiple vehicle users can be realized under the environment without a network weak network based on the PC5 communication mode without depending on a cellular network, the vehicle application scene of the digital RMB wallet is greatly enlarged, the user satisfaction degree is improved, and the user viscosity is enhanced.

Further effects of the above-described non-conventional alternatives are described below in connection with the embodiments.

Drawings

The drawings are included to provide a better understanding of the invention and are not to be construed as unduly limiting the invention. Wherein:

FIG. 1 is a schematic diagram of the main flow of a digital currency red envelope processing method according to one embodiment of the present invention;

FIG. 2 is a schematic diagram of an in-vehicle system according to an embodiment of the invention;

FIG. 3 is a schematic diagram of the main flow of a digital currency red envelope processing method according to one referenceable embodiment of the invention;

FIG. 4 is a schematic diagram of the main flow of a digital currency red envelope processing method according to another exemplary embodiment of the present invention;

FIG. 5 is a schematic diagram of the main flow of a digital currency red envelope processing method according to another embodiment of the present invention;

FIG. 6 is a schematic diagram of the main flow of a digital currency red envelope processing method according to yet another exemplary embodiment of the present invention;

FIG. 7 is a schematic diagram of the main modules of a digital currency red envelope processing apparatus, according to one embodiment of the present invention;

fig. 8 is a schematic diagram of main modules of a digital money packet processing device according to another embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present invention will now be described with reference to the accompanying drawings, in which various details of the embodiments of the present invention are included to facilitate understanding, and are to be considered merely exemplary. Accordingly, those of ordinary skill in the art will recognize that various changes and modifications of the embodiments described herein can be made without departing from the scope and spirit of the invention. Also, descriptions of well-known functions and constructions are omitted in the following description for clarity and conciseness.

Fig. 1 is a schematic diagram of the main flow of a digital money packet processing method according to an embodiment of the present invention. As an embodiment of the present invention, as shown in fig. 1, the digital currency red packet processing method is applied to a sender vehicle-mounted client, and may include:

step 101, receiving a red packet sending instruction submitted by a sender.

The V2X (vehicle-to-evaluation) communication technology of the Internet of vehicles supports a PC5 direct communication mode, a terminal with a V2X communication module can actively transmit broadcast messages to the outside as required, and the V2X communication module in an effective communication distance range (such as 1000 meters) nearby can receive the broadcast messages and submit the broadcast messages to the terminal for message application processing. The use of the C-V2X communication mode is independent of the existing 4G/5G mobile communication network and can be used when the mobile communication network is congested or the signal is poor.

V2X, as the name implies, is vehicle-to-evaluation, which is intended to achieve information interaction between the vehicle and all entities that may affect the vehicle, in order to reduce incidents, reduce traffic jams, reduce environmental pollution, and provide other information services.

V2X mainly comprises a vectore-to-vectore (V2V), a vectore-to-infra-structure (V2I), a vectore-to-network (V2N), and a vectore-to-petestrian (V2P).

V2V (Vehicle-To-Vehicle) can be used as an inter-Vehicle information interaction and reminder, most typically for an inter-Vehicle collision avoidance system.

V2I (Vehicle-To-Infrastructure), vehicles can communicate with roads and even other infrastructures, such as traffic lights, road blocks, etc., and acquire road management information such as traffic light signal timings.

V2N (Vehicle-To-Network) is the most widely used form of internet of vehicles at present, and its main function is To connect vehicles To a cloud server through a mobile Network, and use application functions such as navigation, entertainment, and theft prevention provided by the cloud server.

V2P (Vehicle-To-Pedestrian) is used as a safety warning for pedestrians or non-vehicles on the road.

As shown In fig. 2, the vehicle-mounted system includes a display screen, a vehicle-mounted IVI system (In-Vehicle Infotainment, vehicle-mounted infotainment system), a digital money wallet, a vehicle-mounted SE, a vehicle-mounted C-V2X module, and a voice recognition module. The vehicle-mounted IVI system provides an operation environment for the digital money wallet application, provides operations such as touch interaction and voice interaction, and supports management of a plurality of screens; the digital currency wallet provides automobile digital wallet service, which can be APP, applet, light application and other forms; the voice recognition module provides voice interaction interface capability for a user to operate the vehicle-mounted application. If the display screen is a touch screen, the vehicle-mounted system further comprises a touch sensing module, the touch screen is responsible for user interface display and user click touch action information interaction, and the touch sensing module provides touch interaction interface capability for a user to operate the vehicle-mounted application. The in-vehicle SE module provides digital currency wallet functions including currency string generation and the like, and the in-vehicle C-V2X module provides PC5 communication functions.

The platform side (the service end of the digital currency wallet) comprises a digital currency wallet background, an interconnection platform and an organization background. The digital currency wallet background is responsible for digital currency wallet information management, including transfer information processing of money in a red packet among digital currency wallet accounts; the interconnection platform is responsible for realizing interconnection of digital currency wallets of different mechanisms; the institution back office is responsible for providing transaction support for the user's digital money transactions. It should be noted that, in the embodiment of the present invention, the digital money wallet APP mainly refers to a client function of the APP, and the digital money wallet background implements a platform side function of the digital money wallet APP.

In the step, a sender vehicle-mounted client receives a red packet sending instruction submitted by a sender, wherein the red packet sending instruction carries the amount of red packets to be disassembled, the number of red packets to be disassembled and user identifiers corresponding to the receiver vehicle-mounted clients. In order to deduct the corresponding red packet amount of the red packet sender after the successful sending of the red packet, before step 101, the method further includes: digital currency wallet account information submitted by the sender is received to log into the digital currency wallet. Before submitting the red packet sending instruction, the sender needs to input digital currency wallet account information on the digital currency wallet APP, so that the digital currency wallet APP logs in the digital currency wallet account of the sender and sends the red packet through the digital currency wallet account of the sender.

Optionally, receiving a red packet sending instruction submitted by the sender, including: creating a user group, wherein the user group comprises at least one user identifier; and receiving a red packet sending instruction aiming at the user group and submitted by a sender. In order to send a red packet sending instruction to each receiver vehicle-mounted client, a user group needs to be created first, for example, a red packet sending type can be increased on a digital currency wallet APP sending interface, a sender selects group sending on the interface, and then user identifiers of other digital currency wallets in an APP address book are added into the group, wherein the user identifiers comprise vehicle-mounted digital currency wallet identifiers, vehicle-mounted digital currency wallet accounts, license plates or mobile phone numbers. It should be noted that the license plate number and the mobile phone number are already associated with the digital money wallet in advance, and the digital money wallet can be identified through the license plate number and the mobile phone number, so that a red packet sending instruction is sent to the vehicle-mounted client of the receiver corresponding to the digital money wallet.

The sender of the red packet can input the user identification of the digital money wallet participating in the red packet, the amount of the red packet to be disassembled, the number of the red packet to be disassembled, allocation rules (such as random or fixed values) and the like on the vehicle-mounted display screen, and then click on a control for sending the red packet, so that the digital money wallet APP receives the red packet sending instruction submitted by the sender. Alternatively, the sender may send the red packet sending instruction manually, or may send the red packet sending instruction in a voice manner, which is not limited in this embodiment of the present invention.

And 102, respectively sending the red packets to each receiving party vehicle-mounted client.

After receiving the red packet sending instruction submitted by the sender, the sender vehicle-mounted client broadcasts red packet information to each receiver vehicle-mounted client through the vehicle-mounted C-V2X module. It should be noted that after the digital money wallet APP of the sender sends out the red packet, the red packet message is broadcast to the receiver vehicle-mounted client through the vehicle-mounted C-V2X module, and the receiver vehicle-mounted client also receives the red packet message through the vehicle-mounted C-V2X module in the vehicle.

Optionally, sending the red packet to each receiving side vehicle-mounted client respectively includes: broadcasting a red packet message to each receiver vehicle-mounted client; wherein the red packet message includes a red packet and encrypted individual user identifications. The method comprises the steps that a sender vehicle-mounted client sends out a red packet in a broadcasting mode, the red packet information comprises encrypted user identifiers, the vehicle-mounted client supporting V2X can accept the red packet, after the receiver vehicle-mounted client receives the red packet information, each encrypted user identifier contained in the red packet information is decrypted firstly, then whether the user identifier corresponding to the receiver vehicle-mounted client exists in each user identifier is judged, if so, the red packet information is received, and the receiver is prompted to receive the red packet, for example, a red packet interface is displayed on a display screen; if not, the red packet message is ignored. Therefore, only the receiving-side vehicle-mounted client corresponding to the user identification contained in the broadcast message can receive the red packet.

And step 103, calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule.

After receiving the red packet, the receiver vehicle-mounted client can display a red packet interface on a display screen, and the receiver clicks to get the red packet and returns a red packet receiving response through the vehicle-mounted C-V2X module. After receiving the red packet receiving responses returned by the vehicle-mounted clients of the receivers, the vehicle-mounted clients of the sender calculate the red packet amount corresponding to the vehicle-mounted clients of the receivers according to the red packet receiving responses returned by the vehicle-mounted clients of the receivers and distribution rules (such as random or fixed values).

Optionally, the red packet receiving response includes an on-board digital money wallet address and a user identification, wherein the user identification includes an on-board digital money wallet identification, an on-board digital money wallet account, a license plate number, or a cell phone number. After receiving the red packet, the receiver vehicle-mounted client can display a red packet interface on a display screen, and the receiver can fight the red packet by means of manual clicking or voice interaction and the like, and returns a red packet receiving response to the sender vehicle-mounted client through the vehicle-mounted C-V2X module, so that the sender vehicle-mounted client is replied. The red packet receipt response may include, among other things, a vehicle digital currency wallet address, a vehicle digital currency wallet identification, a vehicle digital currency wallet account, a license plate number, or a cell phone number associated with the recipient vehicle client. The vehicle digital money wallet address is information that must be responded to, and is used for receiving the red packet digital money.

Optionally, the interaction interface between the receiver and the digital currency wallet is interacted with voice through the touch screen, so that in order to ensure driving safety, a red envelope interface can be displayed on the entertainment auxiliary screen without interfering with the dashboard and the main screen of the driver.

Optionally, step 103 may include: receiving red packet receiving responses returned by the vehicle-mounted clients of the receivers; calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule; and associating the vehicle-mounted client of each receiver with the corresponding red packet amount. The method comprises the steps that a sender vehicle-mounted client receives red packet receiving responses returned by all receiver vehicle-mounted clients, red packet amount corresponding to all receiver vehicle-mounted clients is calculated according to the red packet receiving responses and distribution rules returned by all receiver vehicle-mounted clients, and the red packet amount corresponding to the receiver vehicle-mounted clients and user identifications corresponding to all receiver vehicle-mounted clients are associated one by one, so that corresponding red packet amount can be transferred to digital money wallet accounts of all red packet receivers in subsequent steps, and background account transfer operation is achieved.

Optionally, calculating the amount of the red packet corresponding to each receiving vehicle-mounted client according to the red packet receiving response returned by each receiving vehicle-mounted client and the distribution rule, including: and calculating the amount of the red packet corresponding to the vehicle-mounted client of each receiving party according to the return sequence of the receiving response of each red packet, the amount of the remaining undetached red packet and the distribution rule. And for each receiver vehicle-mounted client, calculating the corresponding red packet amount of the receiver vehicle-mounted client according to the return sequence of the red packet receiving response of the receiver vehicle-mounted client, the number of the remaining undetached red packets, the remaining undetached red packet amount and the distribution rule. It should be noted that when the sender vehicle-mounted client calculates the amount of the red packet corresponding to each receiver vehicle-mounted client, it is also checked whether the returned user identifier is the user identifier carried in the red packet sending instruction, if not, the amount of the red packet corresponding to the receiver vehicle-mounted client does not need to be calculated.

Optionally, after associating the vehicle-mounted client of each receiver and the corresponding red packet amount thereof, the method further comprises: respectively sending corresponding red packet amounts to the vehicle-mounted clients of all the receivers; deducting a corresponding red-envelope amount from the sender's digital money wallet; and storing the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the local. After the sender vehicle-mounted client calculates the corresponding money amount of each receiver vehicle-mounted client, generating a coin string money packet by the SE digital currency money packet, and then sending the corresponding coin string money packet to each receiver vehicle-mounted client through a vehicle-mounted C-V2X module so as to display the money amount of the money packet on a display screen of the receiver; meanwhile, the sender vehicle-mounted client deducts the corresponding red packet amount from the digital currency wallet of the sender. And then, the sender vehicle-mounted client stores the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client locally, so that balance synchronization is convenient in the subsequent steps. And the receiver vehicle-mounted client receives the coin string red packet through the vehicle-mounted C-V2X module and stores the coin string red packet in a local SE digital currency wallet.

Optionally, after storing the association relationship between the amount of the red packet corresponding to the vehicle-mounted client of each receiver and the vehicle-mounted digital currency wallet address returned by the vehicle-mounted client of each receiver locally, the method further includes: and uploading the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to a server so as to transfer the red packet amount corresponding to each receiver vehicle-mounted client into the corresponding vehicle-mounted digital currency wallet. If the digital currency wallet is in an offline state currently, storing the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client locally, and uploading the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the server once the digital currency wallet is detected to be in a networking state. And if the digital currency wallet is currently in a networking state, uploading the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the server. The digital currency wallet background of the service end transfers the digital currency into the corresponding digital currency wallet account, and deducts the corresponding amount of the digital currency wallet account of the sender.

It should be noted that, if the uploading fails, the association relationship between the amount of the red packet corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital money wallet address returned by each receiver vehicle-mounted client is stored locally, and once the digital money wallet is detected to be in the networking state, the association relationship between the amount of the red packet corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital money wallet address returned by each receiver vehicle-mounted client is uploaded to the server.

It should be noted that, the multi-car robbery red packet scheme of the embodiment of the invention can adopt a PC5 interface mode of C-V2X to support an independent cellular communication network module, and can also adopt a Uu interface mode of C-V2X to rely on a cellular network. RSU refers to road side unit, PC5 interface refers to car networking direct communication interface, uu interface refers to car networking cellular communication interface. It should be noted that, if the user is not applicable to the V2X communication method, the communication interaction among multiple vehicles may be implemented by using bluetooth, WIFI or 4G/5G communication methods, which is not limited in the embodiment of the present invention. The embodiment of the invention realizes the robbing-striving red packet activity among the vehicle-mounted clients in a SE digital currency wallet mode and supports the conditions of offline, weak network, no network, busy network and the like.

According to the various embodiments described above, it can be seen that the technical means of calculating the amount of the red packet corresponding to each receiving party vehicle-mounted client according to the red packet receiving response and the distribution rule returned by each receiving party vehicle-mounted client by respectively sending the red packet to each receiving party vehicle-mounted client, so as to solve the technical problem that the interaction mode based on the digital currency automobile wallet is lacking in the prior art. The embodiment of the invention can realize that the user can construct a red packet group through the digital currency wallets and send the red packet in the group, the digital currency wallets in the group rob to pick the red packet, the interaction among multiple vehicle users can be realized under the environment without a network weak network based on the PC5 communication mode without depending on a cellular network, the vehicle application scene of the digital RMB wallet is greatly enlarged, the user satisfaction degree is improved, and the user viscosity is enhanced.

Fig. 3 is a schematic diagram of the main flow of a digital money packet processing method according to one reference embodiment of the present invention. As still another embodiment of the present invention, as shown in fig. 3, the digital currency red packet processing method is applied to a sender vehicle-mounted client, and may include:

step 301, receiving a red packet sending instruction submitted by a sender.

The method comprises the steps that a sender vehicle-mounted client receives a red packet sending instruction submitted by a sender, wherein the red packet sending instruction carries the amount of red packets to be disassembled, the number of red packets to be disassembled and user identifications corresponding to vehicle-mounted clients of all receivers submitted by the sender.

And step 302, respectively sending the red packets to each receiving party vehicle-mounted client.

After receiving the red packet sending instruction submitted by the sender, the sender vehicle-mounted client broadcasts red packet information to each receiver vehicle-mounted client through the vehicle-mounted C-V2X module. It should be noted that after the digital money wallet APP of the sender sends out the red packet, the red packet message is broadcast to the receiver vehicle-mounted client through the vehicle-mounted C-V2X module, and the receiver vehicle-mounted client also receives the red packet message through the vehicle-mounted C-V2X module in the vehicle.

And 303, receiving red packet receiving responses returned by the vehicle-mounted clients of the receivers.

After receiving the red packet, the receiver vehicle-mounted client can display a red packet interface on a display screen, and the receiver can fight the red packet by means of manual clicking or voice interaction and the like, and returns a red packet receiving response to the sender vehicle-mounted client through the vehicle-mounted C-V2X module, so that the sender vehicle-mounted client is replied. The red packet receiving response comprises a vehicle-mounted digital currency wallet address and a user identification, wherein the user identification comprises a vehicle-mounted digital currency wallet identification, a vehicle-mounted digital currency wallet account, a license plate number or a mobile phone number. The vehicle digital money wallet address is information that must be responded to, and is used for receiving the red packet digital money.

And step 304, calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule.

And for each receiver vehicle-mounted client, calculating the corresponding red packet amount of the receiver vehicle-mounted client according to the return sequence of the red packet receiving response of the receiver vehicle-mounted client, the number of the remaining undetached red packets, the remaining undetached red packet amount and the distribution rule. It should be noted that when the sender vehicle-mounted client calculates the amount of the red packet corresponding to each receiver vehicle-mounted client, it is also checked whether the returned user identifier is the user identifier carried in the red packet sending instruction, if not, the amount of the red packet corresponding to the receiver vehicle-mounted client does not need to be calculated.

And step 305, associating the vehicle-mounted client sides of the receivers with the corresponding red packet amounts.

The sender vehicle-mounted client associates the money amount of the red packet corresponding to the receiver vehicle-mounted client with the user identification corresponding to each receiver vehicle-mounted client one by one, so that the corresponding money amount of the red packet is transferred to the digital money wallet account of each red packet receiver in the subsequent step, and the transfer operation between background accounts is realized.

And step 306, respectively sending corresponding red packet amounts to the vehicle-mounted clients of the receivers.

After the sender vehicle-mounted client calculates the corresponding money amount of each receiver vehicle-mounted client, the SE digital currency purse generates a coin string money packet, and then the corresponding coin string money packet is sent to each receiver vehicle-mounted client through the vehicle-mounted C-V2X module, so that the money amount of the money packet is displayed on a display screen of the receiver.

And the receiver vehicle-mounted client receives the coin string red packet through the vehicle-mounted C-V2X module and stores the coin string red packet in a local SE digital currency wallet.

Step 307, deducting the corresponding red-pack amount from the sender's digital money wallet.

The embodiment of the invention adopts the SE digital currency wallet to generate the coin string red packet, for the sender vehicle-mounted client, the corresponding amount is deducted from the SE digital currency wallet when the coin string is generated, for the receiver vehicle-mounted client, the received coin string red packet is stored in the local SE digital currency wallet, and meanwhile, the total amount in the local SE digital currency wallet is correspondingly increased.

It should be noted that, the generation, sending and receiving of the coin string of the SE digital currency wallet are independent from the platform, and the SE digital currency wallet can be periodically synchronized with the platform to synchronize the corresponding transaction information. There are special scenarios: if the vehicle of the red-package receiver does not have an SE digital currency wallet or the storage space of the local SE digital currency wallet is insufficient or other conditions cause that the currency string is not received temporarily, the sender saves the information of the corresponding receiver, the sender vehicle-mounted client submits a platform, and the platform transfers the corresponding red-package amount to the wallet account of the receiver. Thus, steps 308 and 309 after step 307 are not required for the case where the vehicle of the red envelope receiver is installed with an SE digital money purse and can receive a money string. Steps 308 and 309 need to be performed for the case where the vehicle of the red-envelope receiver does not have an SE digital money purse installed or the SE digital money purse does not receive a string of coins for a while.

And 308, storing the association relationship between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the local.

The sender vehicle-mounted client stores the association relationship between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client locally, so that balance synchronization is convenient in the follow-up steps.

Step 309, uploading the association relationship between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to a server, so as to transfer the red packet amount corresponding to each receiver vehicle-mounted client into the corresponding vehicle-mounted digital currency wallet.

If the digital currency wallet is in an offline state currently, storing the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client locally, and uploading the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the server once the digital currency wallet is detected to be in a networking state. And if the digital currency wallet is currently in a networking state, uploading the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the server. The digital currency wallet background of the service end transfers the digital currency into the corresponding digital currency wallet account, and deducts the corresponding amount of the digital currency wallet account of the sender.

In addition, in the embodiment of the present invention, the implementation of the digital money packet processing method has been described in detail in the above-mentioned digital money packet processing method, so that the description thereof will not be repeated here.

Fig. 4 is a schematic diagram of the main flow of a digital money packet processing method according to another exemplary embodiment of the present invention. As still another embodiment of the present invention, as shown in fig. 4, the digital currency red packet processing method is applied to a sender vehicle-mounted client, and may include:

step 401, creating a user group.

In order to facilitate sending the red packet sending instruction to each receiving party vehicle-mounted client, a user group is firstly required to be created, and the user group comprises at least one user identifier. For example, a red packet sending type can be added on a digital currency wallet APP sending interface, a sender selects group sending on the interface, and then user identifications of other digital currency wallets in an APP address book are added into the group, wherein the user identifications comprise vehicle-mounted digital currency wallet identifications, vehicle-mounted digital currency wallet accounts, license plates or mobile phone numbers. It should be noted that the license plate number and the mobile phone number are already associated with the digital money wallet in advance, and the digital money wallet can be identified through the license plate number and the mobile phone number, so that a red packet sending instruction is sent to the vehicle-mounted client of the receiver corresponding to the digital money wallet.

And step 402, receiving a red packet sending instruction aiming at the user group submitted by a sender.

The red package sending instruction carries the amount of red packages to be disassembled, the number of red packages to be disassembled and user identifications corresponding to vehicle-mounted clients of all the receivers, which are submitted by the sender.

And step 403, broadcasting the red packet message to each receiving party vehicle-mounted client. Wherein the red packet message includes a red packet and encrypted individual user identifications.

The vehicle-mounted client sends out a red packet in a broadcasting mode, the red packet information contains encrypted user identifiers, the vehicle-mounted client supporting V2X can receive the red packet, after receiving the red packet information, the vehicle-mounted client of a receiver firstly decrypts the encrypted user identifiers contained in the red packet information, then judges whether the user identifiers corresponding to the vehicle-mounted client of the receiver exist in the user identifiers, if so, the red packet information is received, and the receiver is prompted to receive the red packet, for example, a red packet interface is displayed on a display screen; if not, the red packet message is ignored. Therefore, only the receiving-side vehicle-mounted client corresponding to the user identification contained in the broadcast message can receive the red packet.

And step 404, receiving a red packet receiving response returned by the vehicle-mounted client of each receiver. The red packet receiving response comprises a vehicle-mounted digital currency wallet address and a user identification, wherein the user identification comprises a vehicle-mounted digital currency wallet identification, a vehicle-mounted digital currency wallet account, a license plate number or a mobile phone number.

And step 405, calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule.

And step 406, associating the vehicle-mounted client sides of the receivers with the corresponding red packet amounts.

Step 407, respectively sending corresponding red packet amounts to the vehicle-mounted clients of the receivers.

Step 408, deducting the corresponding red-pack amount from the sender's digital money wallet.

And 409, storing the association relationship between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the local.

In addition, in another embodiment of the present invention, the implementation of the digital currency packet processing method is described in detail in the above-mentioned digital currency packet processing method, so that the description thereof will not be repeated here.

Fig. 5 is a schematic diagram of the main flow of a digital money packet processing method according to another embodiment of the present invention. As an embodiment of the present invention, as shown in fig. 5, the digital currency red packet processing method is applied to a receiving vehicle-mounted client, and may include:

step 501, receiving a red packet sent by a sender vehicle-mounted client.

And step 502, returning a red packet receiving response to the sender vehicle-mounted client.

After receiving the red packet, the receiver vehicle-mounted client can display a red packet interface on a display screen, and the receiver can fight the red packet by means of manual clicking or voice interaction and the like, and returns a red packet receiving response to the sender vehicle-mounted client through the vehicle-mounted C-V2X module, so that the sender vehicle-mounted client is replied. The red packet receipt response may include, among other things, a vehicle digital currency wallet address, a vehicle digital currency wallet identification, a vehicle digital currency wallet account, a license plate number, or a cell phone number associated with the recipient vehicle client. The vehicle digital money wallet address is information that must be responded to, and is used for receiving the red packet digital money.

Optionally, the interaction interface between the receiver and the digital currency wallet is interacted with voice through the touch screen, so that in order to ensure driving safety, a red envelope interface can be displayed on the entertainment auxiliary screen without interfering with the dashboard and the main screen of the driver.

And step 503, receiving the amount of the red packet returned by the sender vehicle-mounted client.

The receiving party vehicle-mounted client receives the coin string red packet through the vehicle-mounted C-V2X module, stores the coin string red packet in a local SE digital currency wallet, and simultaneously displays the amount of the red packet on a display screen.

In addition, in another embodiment of the present invention, the implementation of the digital money packet processing method has been described in detail in the above-mentioned digital money packet processing method, so that the description thereof will not be repeated here.

Fig. 6 is a schematic diagram of the main flow of a digital money packet processing method according to still another embodiment of the present invention. As still another embodiment of the present invention, as shown in fig. 6, the digital currency red packet processing method is applied to a receiving vehicle-mounted client, and may include:

and step 601, receiving a red packet message broadcast by a sender vehicle-mounted client.

Wherein the red packet message includes a red packet and encrypted individual user identifications.

Step 602, decrypting each encrypted user identifier.

Step 603, judging whether user identifiers corresponding to the vehicle-mounted client of the receiving party exist in the user identifiers; if yes, then execute no step 604; if not, step 605 is executed.

The sender vehicle-mounted client sends out a red packet in a broadcasting mode, the red packet information contains encrypted user identification, and the vehicle-mounted client supporting V2X can accept the red packet.

After receiving the red packet message, the vehicle-mounted client of the receiver firstly decrypts each encrypted user identifier contained in the red packet message, then judges whether the user identifier corresponding to the vehicle-mounted client of the receiver exists in each user identifier, if so, receives the red packet message and prompts the receiver to receive the red packet, for example, a red packet interface is displayed on a display screen; if not, the red packet message is ignored. Therefore, only the receiving-side vehicle-mounted client corresponding to the user identification contained in the broadcast message can receive the red packet.

Step 604, receiving the red packet and prompting the receiver.

Step 605 ignores the red packet.

And step 606, returning a red packet receiving response to the sender vehicle-mounted client.

After receiving the red packet, the receiver vehicle-mounted client can display a red packet interface on a display screen, and the receiver can fight the red packet by means of manual clicking or voice interaction and the like, and returns a red packet receiving response to the sender vehicle-mounted client through the vehicle-mounted C-V2X module, so that the sender vehicle-mounted client is replied. The red packet receipt response may include, among other things, a vehicle digital currency wallet address, a vehicle digital currency wallet identification, a vehicle digital currency wallet account, a license plate number, or a cell phone number associated with the recipient vehicle client. The vehicle digital money wallet address is information that must be responded to, and is used for receiving the red packet digital money.

And step 607, receiving the amount of the red packet returned by the sender vehicle-mounted client and displaying the amount of the red packet.

The receiving party vehicle-mounted client receives the coin string red packet through the vehicle-mounted C-V2X module, stores the coin string red packet in a local SE digital currency wallet, and simultaneously displays the amount of the red packet on a display screen.

In addition, in still another embodiment of the present invention, the implementation of the digital money packet processing method has been described in detail in the above-mentioned digital money packet processing method, and thus the description thereof will not be repeated here.

Fig. 7 is a schematic diagram of main modules of a digital money packet processing device according to an embodiment of the present invention. As shown in fig. 7, the digital currency red packet processing device 700 is disposed on a sender vehicle client and includes an instruction module 701, a sending module 702 and a processing module 703; the instruction module 701 is configured to receive a red packet sending instruction submitted by a sender; the sending module 702 is configured to send red packets to each receiving-party vehicle-mounted client respectively; the processing module 703 is configured to calculate a packet amount corresponding to the vehicle-mounted client of each receiver according to the packet receiving response and the allocation rule returned by the vehicle-mounted client of each receiver.

Optionally, the processing module 703 is further configured to:

receiving red packet receiving responses returned by the vehicle-mounted clients of the receivers;

calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule;

and associating the vehicle-mounted client of each receiver with the corresponding red packet amount.

Optionally, the red packet receiving response includes an on-board digital money wallet address and a user identification, wherein the user identification includes an on-board digital money wallet identification, an on-board digital money wallet account, a license plate number, or a cell phone number.

Optionally, the processing module 703 is further configured to:

after the vehicle-mounted client sides of all the receivers and the corresponding red packet amount are associated, respectively sending the corresponding red packet amount to the vehicle-mounted client sides of all the receivers;

deducting a corresponding red-envelope amount from the sender's digital money wallet;

and storing the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the local.

Optionally, the processing module 703 is further configured to:

And after the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client is stored locally, uploading the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to a server so as to transfer the red packet amount corresponding to each receiver vehicle-mounted client into the corresponding vehicle-mounted digital currency wallet.

Optionally, the processing module 703 is further configured to:

and calculating the amount of the red packet corresponding to the vehicle-mounted client of each receiving party according to the return sequence of the receiving response of each red packet, the amount of the remaining undetached red packet and the distribution rule.

Optionally, the red packet sending instruction carries the amount of the red packet to be disassembled, the number of the red packets to be disassembled and the user identification corresponding to the vehicle-mounted client of each receiver submitted by the sender.

Optionally, the instruction module 701 is further configured to:

creating a user group, wherein the user group comprises at least one user identifier;

and receiving a red packet sending instruction aiming at the user group and submitted by a sender.

Optionally, the sending module 702 is further configured to:

broadcasting a red packet message to each receiver vehicle-mounted client; wherein the red packet message includes a red packet and encrypted individual user identifications.

The details of the implementation of the digital money packet processing device according to the present invention are described in the above-mentioned digital money packet processing method, and therefore, the description thereof will not be repeated here.

Fig. 8 is a schematic diagram of main modules of a digital money packet processing device according to another embodiment of the present invention. As shown in fig. 8, the digital currency red packet processing device 800 is disposed at a receiving vehicle-mounted client and includes a receiving module 801 and a response module 802; the receiving module 801 is configured to receive a red packet sent by a vehicle-mounted client of a sender; the response module 802 is configured to return a red packet receiving response to the sender vehicle-mounted client; the red packet receiving response comprises a vehicle-mounted digital currency wallet address and a user identification, wherein the user identification comprises a vehicle-mounted digital currency wallet identification, a vehicle-mounted digital currency wallet account, a license plate number or a mobile phone number.

Optionally, the receiving module 801 is further configured to:

and after a red packet receiving response is returned to the sender vehicle-mounted client, receiving the red packet amount returned by the sender vehicle-mounted client.

Optionally, the receiving module 801 is further configured to:

receiving a red packet message broadcast by a vehicle-mounted client of a sender; wherein the red packet message comprises a red packet and each encrypted user identifier;

decrypting each encrypted user identifier;

judging whether user identifiers corresponding to the vehicle-mounted client of the receiving party exist in the user identifiers or not; if yes, receiving the red packet and prompting a receiver; if not, ignoring the red packet.

The details of the implementation of the digital money packet processing device according to the present invention are described in the above-mentioned digital money packet processing method, and therefore, the description thereof will not be repeated here.

The flowcharts and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer programs according to various embodiments of the present invention. In this regard, each block in the flowchart or block diagrams may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that, in some alternative implementations, the functions noted in the block may occur out of the order noted in the figures. For example, two blocks shown in succession may, in fact, be executed substantially concurrently, or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved. It will also be noted that each block of the block diagrams or flowchart illustration, and combinations of blocks in the block diagrams or flowchart illustration, can be implemented by special purpose hardware-based systems which perform the specified functions or acts, or combinations of special purpose hardware and computer instructions.

The embodiment of the invention also discloses a vehicle machine, which can comprise:

one or more processors;

storage means for storing one or more programs,

the one or more processors implement the method of any of the embodiments described above when the one or more programs are executed by the one or more processors.

In a specific implementation, the vehicle machine may be disposed in an automobile, for example, may be an on-board system provided with multiple screens.

The modules involved in the embodiments of the present invention may be implemented in software or in hardware. The described modules may also be provided in a processor, for example, as: a processor includes an instruction module, a transmission module, and a processing module, where the names of the modules do not constitute a limitation on the module itself in some cases.

The modules involved in the embodiments of the present invention may be implemented in software or in hardware. The described modules may also be provided in a processor, for example, as: a processor includes a receiving module and a responding module, where the names of the modules do not constitute a limitation on the module itself in some cases.

As another aspect, the present invention also provides a computer-readable medium that may be contained in the apparatus described in the above embodiments; or may be present alone without being fitted into the device. The computer readable medium carries one or more programs which, when executed by a device, implement the method of: receiving a red packet sending instruction submitted by a sender; respectively sending red packets to each receiving party vehicle-mounted client; and calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule. The computer readable medium may include ROM, RAM, magnetic disk, optical disk, or flash disk, etc.

As another aspect, the present invention also provides a computer-readable medium that may be contained in the apparatus described in the above embodiments; or may be present alone without being fitted into the device. The computer readable medium carries one or more programs which, when executed by a device, implement the method of: receiving a red packet sent by a vehicle-mounted client of a sender; returning a red packet receiving response to the sender vehicle-mounted client; the red packet receiving response comprises a vehicle-mounted digital currency wallet address and a user identification, wherein the user identification comprises a vehicle-mounted digital currency wallet identification, a vehicle-mounted digital currency wallet account, a license plate number or a mobile phone number. The computer readable medium may include ROM, RAM, magnetic disk, optical disk, or flash disk, etc.

According to the technical scheme provided by the embodiment of the invention, the technical means of respectively sending the red packets to the vehicle-mounted clients of all the receivers and calculating the red packet amount corresponding to the vehicle-mounted clients of all the receivers according to the red packet receiving response returned by the vehicle-mounted clients of all the receivers and the distribution rule are adopted, so that the technical problem that an interaction mode based on a digital currency automobile wallet is lacked in the prior art is solved. The embodiment of the invention can realize that the user can construct a red packet group through the digital currency wallets and send the red packet in the group, the digital currency wallets in the group rob to pick the red packet, the interaction among multiple vehicle users can be realized under the environment without a network weak network based on the PC5 communication mode without depending on a cellular network, the vehicle application scene of the digital RMB wallet is greatly enlarged, the user satisfaction degree is improved, and the user viscosity is enhanced.

The above embodiments do not limit the scope of the present invention. It will be apparent to those skilled in the art that various modifications, combinations, sub-combinations and alternatives can occur depending upon design requirements and other factors. Any modifications, equivalent substitutions and improvements made within the spirit and principles of the present invention should be included in the scope of the present invention.

Claims (26)

1. A digital currency red envelope processing method, applied to a sender vehicle-mounted client, comprising:

receiving a red packet sending instruction submitted by a sender;

respectively sending red packets to each receiving party vehicle-mounted client;

and calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule.

2. The method of claim 1, wherein calculating the respective red-envelope amount for each recipient on-board client based on the red-envelope receipt response returned by each recipient on-board client and the distribution rule, comprises:

receiving red packet receiving responses returned by the vehicle-mounted clients of the receivers;

calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule;

and associating the vehicle-mounted client of each receiver with the corresponding red packet amount.

3. The method of claim 2, wherein the red-pack receipt response includes an in-vehicle digital currency wallet address and a user identification, the user identification including an in-vehicle digital currency wallet identification, an in-vehicle digital currency wallet account, a license plate number, or a cell phone number.

4. The method of claim 3, further comprising, after associating the respective recipient vehicle client and its corresponding package amount:

respectively sending corresponding red packet amounts to the vehicle-mounted clients of all the receivers;

deducting a corresponding red-envelope amount from the sender's digital money wallet;

and storing the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the local.

5. The method according to claim 4, wherein after storing the association relationship between the amount of the red packet corresponding to the respective recipient vehicle-mounted client and the vehicle-mounted digital money wallet address returned by the respective recipient vehicle-mounted client locally, further comprising:

and uploading the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to a server so as to transfer the red packet amount corresponding to each receiver vehicle-mounted client into the corresponding vehicle-mounted digital currency wallet.

6. The method according to claim 2, wherein calculating the amount of the red packet corresponding to each of the recipient vehicle-mounted clients according to the red packet receiving response and the distribution rule returned by each of the recipient vehicle-mounted clients comprises:

And calculating the amount of the red packet corresponding to the vehicle-mounted client of each receiving party according to the return sequence of the receiving response of each red packet, the amount of the remaining undetached red packet and the distribution rule.

7. The method of claim 1, wherein the packet sending instruction carries an amount of packets to be disassembled, a number of packets to be disassembled, and a user identifier corresponding to each receiving party vehicle client submitted by the sending party.

8. The method of claim 1, wherein receiving the red packet transmission instruction submitted by the sender comprises:

creating a user group, wherein the user group comprises at least one user identifier;

and receiving a red packet sending instruction aiming at the user group and submitted by a sender.

9. The method of claim 8, wherein sending the red packets to each recipient vehicle client, respectively, comprises:

broadcasting a red packet message to each receiver vehicle-mounted client; wherein the red packet message includes a red packet and encrypted individual user identifications.

10. The digital currency red packet processing method is characterized by being applied to a vehicle-mounted client of a receiver and comprising the following steps of:

receiving a red packet sent by a vehicle-mounted client of a sender;

Returning a red packet receiving response to the sender vehicle-mounted client; the red packet receiving response comprises a vehicle-mounted digital currency wallet address and a user identification, wherein the user identification comprises a vehicle-mounted digital currency wallet identification, a vehicle-mounted digital currency wallet account, a license plate number or a mobile phone number.

11. The method of claim 10, further comprising, after returning a red packet receipt response to the sender vehicle client:

and receiving the amount of the red packet returned by the sender vehicle-mounted client.

12. The method of claim 10, wherein receiving the red packet sent by the sender on-board client comprises:

receiving a red packet message broadcast by a vehicle-mounted client of a sender; wherein the red packet message comprises a red packet and each encrypted user identifier;

decrypting each encrypted user identifier;

judging whether user identifiers corresponding to the vehicle-mounted client of the receiving party exist in the user identifiers or not; if yes, receiving the red packet and prompting a receiver; if not, ignoring the red packet.

13. A digital money packet processing apparatus, provided in a sender-side vehicle-mounted client, comprising:

The instruction module is used for receiving a red packet sending instruction submitted by a sender;

the sending module is used for respectively sending the red packets to the vehicle-mounted clients of all the receivers;

and the processing module is used for calculating the red packet amount corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule.

14. The apparatus of claim 13, wherein the processing module is further configured to:

receiving red packet receiving responses returned by the vehicle-mounted clients of the receivers;

calculating the amount of the red packet corresponding to each receiver vehicle-mounted client according to the red packet receiving response returned by each receiver vehicle-mounted client and the distribution rule;

and associating the vehicle-mounted client of each receiver with the corresponding red packet amount.

15. The apparatus of claim 14, wherein the red-pack receipt response comprises an in-vehicle digital currency wallet address and a user identification, the user identification comprising an in-vehicle digital currency wallet identification, an in-vehicle digital currency wallet account, a license plate number, or a cell phone number.

16. The apparatus of claim 15, wherein the processing module is further configured to:

After the vehicle-mounted client sides of all the receivers and the corresponding red packet amount are associated, respectively sending the corresponding red packet amount to the vehicle-mounted client sides of all the receivers;

deducting a corresponding red-envelope amount from the sender's digital money wallet;

and storing the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to the local.

17. The apparatus of claim 16, wherein the processing module is further configured to:

and after the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client is stored locally, uploading the association relation between the red packet amount corresponding to each receiver vehicle-mounted client and the vehicle-mounted digital currency wallet address returned by each receiver vehicle-mounted client to a server so as to transfer the red packet amount corresponding to each receiver vehicle-mounted client into the corresponding vehicle-mounted digital currency wallet.

18. The apparatus of claim 14, wherein the processing module is further configured to:

And calculating the amount of the red packet corresponding to the vehicle-mounted client of each receiving party according to the return sequence of the receiving response of each red packet, the amount of the remaining undetached red packet and the distribution rule.

19. The apparatus of claim 13, wherein the packet sending instruction carries an amount of packets to be disassembled, a number of packets to be disassembled, and a user identifier corresponding to each recipient vehicle client submitted by the sender.

20. The apparatus of claim 13, wherein the instruction module is further configured to:

creating a user group, wherein the user group comprises at least one user identifier;

and receiving a red packet sending instruction aiming at the user group and submitted by a sender.

21. The apparatus of claim 20, wherein the means for transmitting is further configured to:

broadcasting a red packet message to each receiver vehicle-mounted client; wherein the red packet message includes a red packet and encrypted individual user identifications.

22. A digital money packet processing apparatus, provided at a receiving side client, comprising:

the receiving module is used for receiving the red packet sent by the vehicle-mounted client of the sender;

The response module is used for returning a red packet receiving response to the sender vehicle-mounted client; the red packet receiving response comprises a vehicle-mounted digital currency wallet address and a user identification, wherein the user identification comprises a vehicle-mounted digital currency wallet identification, a vehicle-mounted digital currency wallet account, a license plate number or a mobile phone number.

23. The apparatus of claim 22, wherein the receiving module is further configured to:

and after a red packet receiving response is returned to the sender vehicle-mounted client, receiving the red packet amount returned by the sender vehicle-mounted client.

24. The apparatus of claim 22, wherein the receiving module is further configured to:

receiving a red packet message broadcast by a vehicle-mounted client of a sender; wherein the red packet message comprises a red packet and each encrypted user identifier;

decrypting each encrypted user identifier;

judging whether user identifiers corresponding to the vehicle-mounted client of the receiving party exist in the user identifiers or not; if yes, receiving the red packet and prompting a receiver; if not, ignoring the red packet.

25. A vehicle machine, comprising:

one or more processors;

Storage means for storing one or more programs,

the one or more processors implement the method of any of claims 1-12 when the one or more programs are executed by the one or more processors.

26. A computer readable medium, on which a computer program is stored, characterized in that the program, when being executed by a processor, implements the method according to any of claims 1-12.

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