CN110569127A - Virtual resource transferring, sending and acquiring method and device - Google Patents

Abstract

disclosed are a virtual resource transferring, sending and acquiring method and device based on artificial intelligence. The virtual resource transfer method comprises the following steps: receiving a virtual resource transfer request message, wherein the virtual resource transfer request message comprises a resource transfer word; determining a transfer keyword based on the resource transfer word according to a first rule; receiving a first virtual resource acquisition message from a first virtual resource acquisition device, wherein the first virtual resource acquisition message comprises a first resource acquisition word and an identifier of the virtual resource acquisition device; determining to acquire a keyword based on the first resource acquisition word according to a second rule, wherein the second rule is different from the first rule; and transferring at least one part of the virtual resource to the first virtual resource acquisition equipment under the condition that the transfer keyword is matched with the acquisition keyword.

Description

Virtual resource transferring, sending and acquiring method and device

Technical Field

the present disclosure relates to the field of virtual resource transfer, and more particularly, to a method and an apparatus for transferring, sending, and acquiring virtual resources based on artificial intelligence.

Background

currently, social software on a user terminal can support functions of sending, obtaining, transferring and the like of virtual resources. The virtual resources herein include various virtual electronic resources existing in the user virtual electronic account that can circulate through the network, for example, QQ coins, electronic money, electronic coupons, and the like.

in order to facilitate the circulation of the virtual resources, the virtual resources can be transmitted, transferred and received in a mode of transmitting the electronic red packet. Common electronic red packs include password red packs. The password red packet adopts a sender to select or input a segment of text content, and the text content and the corresponding virtual resource are sent to the chat window together. And when the receiving party inputs the same text content, the virtual resource can be obtained.

Disclosure of Invention

the embodiment of the disclosure provides a virtual resource transferring, sending and acquiring method and device based on artificial intelligence, so that the transferring, sending and acquiring of virtual resources can be realized in various ways, users can be prompted to use virtual resource sending equipment and virtual resource acquiring equipment to initiate the exchange process of the virtual resources, the frequency of virtual resource exchange is further improved, and the propagation effect of the virtual resources in the internet is further improved.

The embodiment of the disclosure provides a virtual resource transfer method based on artificial intelligence. The virtual resource transfer method comprises the following steps: receiving a virtual resource transfer request message, wherein the virtual resource transfer request message comprises a resource transfer word; determining a transfer keyword based on the resource transfer word according to a first rule; receiving a first virtual resource acquisition message from a first virtual resource acquisition device, wherein the first virtual resource acquisition message comprises a first resource acquisition word; determining to acquire a keyword based on the first resource acquisition word according to a second rule, wherein the second rule is different from the first rule; and transferring at least one part of the virtual resource to the first virtual resource acquisition equipment under the condition that the transfer keyword is matched with the acquisition keyword.

The embodiment of the disclosure provides virtual resource transfer equipment based on artificial intelligence. The virtual resource transfer apparatus includes: a processor, a memory having stored thereon computer instructions which, when executed by the processor, implement the above-described method.

The embodiment of the disclosure provides a virtual resource sending method based on artificial intelligence. The virtual resource sending method comprises the following steps: providing one or more suggested transition words; acquiring resource transfer words and the quantity of virtual resources, wherein the resource transfer words are selected from the one or more suggested transfer words according to user selection input or are received from a user and meet preset standards; and sending a virtual resource transfer request message, wherein the virtual resource transfer request message comprises the number of the virtual resources and the resource transfer word, and the suggested transfer word meets the preset standard.

The embodiment of the disclosure provides virtual resource sending equipment based on artificial intelligence. The virtual resource transmitting apparatus includes a processor and a memory. The memory stores computer instructions that, when executed by the processor, implement the virtual resource sending method described above.

The embodiment of the disclosure provides a virtual resource acquisition method based on artificial intelligence. The virtual resource acquisition method comprises the following steps: receiving and outputting a virtual resource message to be transferred, wherein the virtual resource message to be transferred comprises a resource transfer word; receiving and outputting a resource acquisition word prompt message; acquiring a resource acquisition word and sending a virtual resource acquisition message, wherein the virtual resource acquisition message comprises the resource acquisition word; and receiving the acquisition result of the virtual resource.

The embodiment of the disclosure provides virtual resource acquisition equipment based on artificial intelligence. The virtual resource acquisition device includes: a processor, a memory storing computer instructions which, when executed by the processor, implement the method described above.

Embodiments of the present disclosure provide a computer-readable storage medium having stored thereon computer instructions that, when executed by a processor, implement any of the above-described virtual resource transfer, transmission, and acquisition methods.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present disclosure, the drawings used in the description of the embodiments will be briefly introduced below. The drawings in the following description are merely exemplary embodiments of the disclosure.

Fig. 1 is a schematic diagram illustrating a virtual resource transfer, transmission, and acquisition scenario.

FIG. 2A shows a schematic diagram of an application interface for sending a password red envelope.

FIG. 2B illustrates a schematic diagram of an application interface for receiving a password red envelope.

FIG. 3A is a schematic diagram illustrating an artificial intelligence based virtual resource transfer method according to an embodiment of the disclosure.

FIG. 3B is a flowchart illustrating an artificial intelligence based virtual resource transfer method according to an embodiment of the disclosure.

Fig. 4 is a schematic diagram illustrating a message flow among the virtual resource transmitting device, the first virtual resource acquiring device, the second virtual resource acquiring device, and the server according to an embodiment of the present disclosure.

fig. 5 is a flowchart illustrating an artificial intelligence based virtual resource transmission method according to an embodiment of the present disclosure.

Fig. 6 is a schematic diagram illustrating an artificial intelligence based virtual resource transmitting device according to an embodiment of the present disclosure.

fig. 7 is a flowchart illustrating an artificial intelligence based virtual resource acquisition method according to an embodiment of the present disclosure.

Fig. 8 is a schematic diagram illustrating an artificial intelligence based virtual resource acquisition device according to an embodiment of the present disclosure.

Fig. 9 is an application example according to an embodiment of the present disclosure.

Fig. 10 is a structural diagram illustrating an artificial intelligence-based virtual resource transfer device, a virtual resource transmission device, and a virtual resource acquisition device according to an embodiment of the present disclosure.

Detailed Description

In order to make the objects, technical solutions and advantages of the present disclosure more apparent, example embodiments according to the present disclosure will be described in detail below with reference to the accompanying drawings. It is to be understood that the described embodiments are merely a subset of the embodiments of the present disclosure and not all embodiments of the present disclosure, with the understanding that the present disclosure is not limited to the example embodiments described herein.

In the present specification and the drawings, steps and elements having substantially the same or similar characteristics are denoted by the same or similar reference numerals, and repeated description of the steps and elements will be omitted. Meanwhile, in the description of the present disclosure, the terms "first", "second", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance or order.

For the purpose of describing the present disclosure, concepts related to the present disclosure are introduced below.

Artificial Intelligence (AI) is a theory, method, technique and application system that uses a digital computer or a machine controlled by a digital computer to simulate, extend and expand human Intelligence, perceive the environment, acquire knowledge and use the knowledge to obtain the best results. In other words, artificial intelligence is a comprehensive technique of computer science that attempts to understand the essence of intelligence and produce a new intelligent machine that can react in a manner similar to human intelligence. Artificial intelligence is the research of the design principle and the realization method of various intelligent machines, so that the machines have the functions of perception, reasoning and decision making.

The artificial intelligence technology is a comprehensive subject and relates to the field of extensive technology, namely the technology of a hardware level and the technology of a software level. The artificial intelligence infrastructure generally includes technologies such as sensors, dedicated artificial intelligence chips, cloud computing, distributed storage, big data processing technologies, operation/interaction systems, mechatronics, and the like. The artificial intelligence software technology mainly comprises a computer vision technology, a voice processing technology, a natural language processing technology, machine learning/deep learning and the like.

Fig. 1 is a schematic diagram illustrating a virtual resource transfer, transmission, acquisition scenario 100.

Referring to fig. 1, in a scene 100, a user a transmits a virtual resource to one or more users (e.g., user B, user C, user D) through a server 105 using a virtual resource transmitting apparatus 101. The user B, the user C, and the user D respectively acquire virtual resources through the first virtual resource acquisition device 102, the second virtual resource acquisition device 103, and the nth virtual resource acquisition device 104. The server 105 determines the transfer of the virtual resource by analyzing the mutual information between the virtual resource transmitting apparatus 101 and the respective virtual resource acquiring apparatuses.

the virtual resource sending device 101 and the virtual resource obtaining devices 102 to 104 may be any electronic devices, such as a smart phone, a tablet computer, a smart speaker, a smart television, a smart gateway, a smart car device, and the like. The virtual resource transmitting apparatus 101 and the virtual resource acquiring apparatuses 102 to 104 may also be various application software that can be loaded in the above apparatuses, for example, social software such as WeChat, QQ, or payment software such as Payment treasures.

The virtual resource sending device 101 and the virtual resource acquiring device (e.g., the first virtual resource acquiring device 102, the second virtual resource acquiring device 103, etc.) perform interaction of session messages through the server 105, for example, information interaction may be performed through chat session messages. When the server 105 captures specific information from the session message, the server 105 can perform a transfer of virtual resources. For example, when the virtual resource sending device 101 sends a session message including virtual resource transfer information to the first to nth virtual resource acquiring devices 102 to 104, the server 105 may also capture the amount of the virtual resource requested to be transferred, for example, the amount of QQ coins or electronic money, or the like.

When the virtual resource acquisition device sends session messages for acquiring virtual resources, the server 105 may parse the session messages and transfer the virtual resources to some or all of the virtual resource acquisition devices. For example, when the server 105 captures that the session message sent by the first virtual resource acquisition device 102 correctly responds to the message requesting to transfer the virtual resource sent by the virtual resource sending device 101, the server 105 may transfer part or all of the virtual resource to the first virtual resource acquisition device 102.

FIG. 2A shows a schematic diagram of an application interface 200-A for sending a password red envelope. FIG. 2B shows a schematic diagram of an application interface 200-B for receiving a password red envelope. Application interface 200-a may be displayed on virtual resource sending device 101 in fig. 1 and application interface 200-B may be displayed on virtual resource sending devices 102-104 in fig. 1. The following description is made of the virtual resource transmitting apparatus 101 and the first virtual resource acquiring apparatus 102.

A virtual resource transmission page 201-a and a session page 202-a may be displayed on the application interface 200-a shown in fig. 2A. Specifically, the user can set a password on the virtual resource sending page 201-a- "confirm the eye, i are the right" and the corresponding number of red packets and the amount of red packets. After clicking the button "send password red package", the virtual resource sending apparatus 101 sends a session message including virtual resource transfer information. The application interface 200-A may then display the session page 202-A. The red envelope message that has been sent may be displayed on the conversation page 202-a and a new dialog message may be entered.

The application interface 200-B as shown in fig. 2B includes a session message display box 203 and a session message input box 204. The conversation message display box 203 is used for displaying conversation messages between the users a to D. The conversation message input box 204 is used to input a conversation message. Assuming that the virtual resource acquisition device 102 receives a red envelope message including a password, "people who confirmed their gaze, i am right," the application interface 200-B displays the red envelope message in the message display box 203. User B enters a session message for virtual resource acquisition in message entry box 204, e.g., a message including a password "confirm catch, i am person to. The virtual resource acquisition message including the password may then be sent to server 105 in fig. 1. When the server 105 confirms that the password in the red envelope message is the same as the password in the virtual resource acquisition message, the virtual resource may be transferred to user B and a message "user B has picked up the red envelope" is displayed in the message display box 203. According to fig. 2B, the virtual resource acquisition message sent by the user C does not include the correct password, so the user C does not acquire the corresponding virtual resource.

however, the above method of sending, transferring and acquiring virtual resources by using the password red packet cannot meet the user's requirement for diversified virtual resource acquisition methods, and cannot be applied to other extended application scenarios.

The method adopts the resource acquisition words possibly different from the resource transfer words to acquire the red packet, meets the requirements of users on diversified virtual resource acquisition modes, and can be applied to expanded application scenes.

FIG. 3A is a schematic diagram illustrating an artificial intelligence based virtual resource transfer method 300 in accordance with an embodiment of the disclosure. FIG. 3B is a flowchart illustrating an artificial intelligence based virtual resource transfer method 300 according to an embodiment of the disclosure. The virtual resource transfer method 300 according to the embodiment of the present disclosure may be applied to any network device, which may be a cloud server, and may transmit messages to various electronic devices through a wired network and/or a wireless network.

Referring to fig. 3A, the server 105 executing the artificial intelligence based virtual resource transfer method 300 according to the embodiment of the present disclosure may transfer a virtual resource according to an interactive message between the virtual resource transmitting device 101 and the first virtual resource acquiring device 102. For example, the virtual resource transmitting device 101 may transmit a virtual resource transfer request message to the server 105, informing the server 105 of the virtual resource requested to be transferred. The first virtual resource acquisition device 102 may send a first virtual resource acquisition message to the server 105 indicating that it wishes to acquire a virtual garden. The server 105 may then perform the transfer of the virtual resource according to the virtual resource transfer request message and the first virtual resource acquisition message, for example, to transfer at least a portion of the virtual resource to the first virtual resource acquisition device 102.

Referring to fig. 3B, the server 105 may perform the following steps.

First, in step S301, a virtual resource transfer request message is received, the virtual resource transfer request message including a resource transfer word.

specifically, the virtual resource may be various virtual articles, such as electronic money, QQ currency, coupons, points, or electronic vouchers. The virtual resource exists in the account of the virtual resource sending device, and is issued to the specific virtual resource obtaining device under the cooperation of the server. The virtual resource sending device 101 may be an electronic device that actively initiates a virtual resource exchange, which sends a virtual resource transfer request message to the server 105.

The virtual resource transfer request message may differ according to a communication protocol between the virtual resource transmitting apparatus 101 and the server 105. For example, the virtual resource transfer request message may be part of an HTTP request message. The present disclosure does not limit the format and the bearer manner of the virtual resource transfer request message.

The resource transfer word is a keyword for virtual resource transfer. The resource transfer word may be expressed in the form of various languages, such as chinese, english, korean, japanese, and the like. The resource transfer word may be expressed not only in a text form but also in other various forms such as a voice form, which is not limited by the present disclosure.

In step S302, a transfer keyword is determined based on the resource transfer word according to a first rule.

Optionally, determining the transfer keyword based on the resource transfer word according to the first rule includes: and determining the text at the first specific position in the resource transfer words as the transfer key words. For example, assume that the word in the first specific position is the last word in the resource transfer word. When the resource transfer word is "wind and beautiful", the transfer keyword is "beautiful".

In step S303, a first virtual resource acquisition message is received from a first virtual resource acquisition device, where the first virtual resource acquisition message includes a first resource acquisition word and an identifier of the virtual resource acquisition device.

The first resource obtaining word is a keyword used by the first virtual resource obtaining device to obtain the virtual resource. Similarly, the first resource acquisition word may also be expressed in various languages and in various forms.

In step S304, an acquisition keyword is determined based on the first resource acquisition word according to a second rule, which is different from the first rule.

Optionally, determining to acquire the keyword based on the first resource acquisition word according to a second rule includes: and determining the text at the second specific position in the first resource acquisition word as an acquisition keyword. For example, assume that the word in the second particular position is the first word in the resource transfer word. When the first resource acquisition word is "force infinity", the acquisition keyword is "force".

The first specific location and the second specific location may be the same or different. The first rule and the second rule may be preset by the server 105, or may be set by the user when the virtual resource is transmitted, which is not limited by the present disclosure.

In step S305, in a case where the transfer keyword matches the acquisition keyword, at least a part of the virtual resource is transferred to the first virtual resource acquisition device.

Optionally, the transfer keyword is determined to match the acquisition keyword if the transfer keyword and the acquisition keyword satisfy at least one of the following conditions: the obtaining keyword and the transfer keyword have the same pinyin, the obtaining keyword and the transfer keyword have the same components or radicals, the obtaining keyword and the transfer keyword are the same character, and at least one of the first resource obtaining word and the resource transfer word is any one of idioms, posterities, colloquialisms, lyrics, plains, celebrities or poems. Therefore, the interestingness of the virtual resource sending, transferring and acquiring process can be increased.

For example, suppose that the transfer keywords and the acquisition keywords need to satisfy the rules: the acquisition keyword and the transfer keyword have the same pinyin, and both the first resource acquisition word and the resource transfer word need to be idioms. Meanwhile, the character at the first specific position is assumed to be the last character in the resource transfer word, and the character at the second specific position is assumed to be the first character in the resource transfer word. The transfer keyword "beauty" and the acquisition keyword "power" satisfy the above rule when the resource transfer word is "wind and japanese" and the first resource acquisition word is "power infinity". Thus, at least a portion of the virtual resources may be transmitted to the virtual resource acquisition device 102.

In the application of the password red packet, the server only analyzes whether the passwords respectively sent by the virtual resource sending equipment and the virtual resource acquiring equipment are the same or not. According to the method and the device, the mode of analyzing whether the transfer keywords are matched with the acquisition keywords is adopted, the application scene of virtual resource distribution is expanded, the requirement on diversified virtual resource acquisition modes is met, and the propagation effect of the virtual resources in the internet is improved.

Fig. 4 is a schematic diagram illustrating a message flow 400 between the artificial intelligence based virtual resource sending device 101, the first virtual resource acquiring device 102, the second virtual resource acquiring device 103 and the server 105 according to an embodiment of the present disclosure.

Referring to fig. 4, after knowing that the virtual resource sending device 101 has a virtual resource request to send, in operation 401, the server 105 may send a resource transfer word suggestion message to the virtual resource sending device, where the resource transfer word suggestion message includes one or more suggested transfer words.

Suggested transfer words are keywords that can be used to make a resource transfer. Suppose that the transfer keyword and the acquisition keyword need to satisfy the requirement that the resource acquisition word and the resource transfer word are both idioms. The suggested transition word may be one or more idioms.

In operation 402, the server 105 receives a virtual resource transfer request message from the virtual resource transmitting apparatus 101. The virtual resource transfer request message includes a resource transfer word and a number of virtual resources. The amount of virtual resources may be the total amount of virtual resources requested to be transferred. For example, when the virtual resource is QQ coins, the amount of the virtual resource is the amount of QQ coins that the user A wants to transfer. In addition, the virtual resource transfer request message may further include the number of times of getting the virtual resource, that is, the maximum number of the virtual resource acquiring devices that can acquire the virtual resource.

In operation 403, the server 105 determines a transfer keyword based on the resource transfer word according to a first rule. For example, assume that the first rule includes transferring the keyword to the last word in the resource transfer word. The server 105 determines that the transfer keyword is "beauty" when the resource transfer word is "wind and japanese".

Suppose that the resource transfer word needs to be any one of idioms, posterities, colloquials, lyrics, plains, celebrities, or poems. The server 105 may determine whether the resource transfer word satisfies the requirement through its built-in artificial intelligence module. The server 105 may also determine whether the resource transfer word satisfies the requirement by a simple database query method. The present disclosure does not set any limit to the manner in which the server 105 determines whether the rule is satisfied.

If the server 105 determines that the resource transfer word does not satisfy the above condition, the server 105 may transmit a message that the resource transfer failed to the virtual resource transmitting apparatus 101, and suspend the operation. If the server 105 receives the resource transfer word satisfying the above condition, the server 105 may continue to perform the following operations.

In operation 404, the server 105 sends messages to be transferred for the virtual resources to the first resource acquisition device 102 and the second resource acquisition device 103, respectively. The virtual resource message to be transferred comprises a resource transfer word. In the above example, the resource transfer word is "wind and sun".

Optionally, the server 105 may also perform operation 405. In operation 405, the server 105 transmits a resource acquisition word prompt message to the first resource acquisition device 102 and the second resource acquisition device 103. The resource acquisition word prompt message includes pinyin or characters of the transfer keyword. That is, the server 105 may send the pinyin "feng" or the character "wind" to the first resource acquisition device 102. The server 105 may identify the pinyin for the transfer keyword through its built-in artificial intelligence module, and may also identify the pinyin for the transfer keyword by querying a database, which is not limited in this disclosure.

In operation 406, the server 105 receives a first virtual resource acquisition message from the first virtual resource acquisition device 102. The first virtual resource acquisition message includes a first resource acquisition word. At this time, the second virtual resource acquisition device 103 does not transmit the virtual resource acquisition message, possibly due to a network delay or a user operation. Alternatively, the virtual resource acquisition message sent by the second virtual resource acquisition device 103 arrives after the first virtual resource acquisition message. At this time, the server 105 parses the first virtual resource acquisition message that arrives first, and acquires the first resource acquisition word from the message.

In operation 407, the server 105 determines an acquisition keyword based on the first resource acquisition word according to a second rule. For example, assume that the second rule includes obtaining a keyword to obtain a first word of words for the first resource. Then the server 105 determines that the acquisition keyword is "force" when the first resource acquisition word is "force infinity".

In operation 408, the server 105 transfers at least a portion of the virtual resource if the transfer keyword matches the acquisition keyword. For example, at least a portion of the virtual resources may be transferred to the first virtual resource acquisition device 102.

It is assumed that the transfer keyword can be judged to be matched with the acquisition keyword only when the first resource acquisition word is idiom. Similarly, the server 105 also needs to determine whether the first resource acquisition word is idiom. If the server 105 determines that the resource transfer word is not a idiom, the server 105 may send a message to the virtual resource acquisition device 101 that the resource transfer failed and suspend operation.

Assuming that the transfer keywords and the acquisition keywords still need to be satisfied: the obtaining keyword and the transfer keyword have the same pinyin. In the above example, the server 105 determines that the acquisition keyword "force" and the transfer keyword "beauty" have the same pinyin, and accordingly transfers at least a part of the virtual resource to the first resource acquisition device 102. For example, assume that the virtual resource is 100 QQ coins and the number of earnings is 5. The server 105 may transfer 30 QQ coins to the first resource acquisition device 102. The server 105 can equally transfer virtual resources for the resource acquisition devices participating in the virtual resource transfer according to the number of times of virtual resource pickup. The server 105 may also randomly transfer the virtual resource for some of the resource acquisition devices participating in the virtual resource transfer in turn until the maximum number of draws of the virtual resource is reached.

then, in operation 409, the server 105 updates the transfer keyword based on the first resource acquisition word and updates the number of virtual resources according to the first rule. In the above example, the server 105 may update the transfer keyword to "poor" and the number of virtual resources to 70 QQ coins, and the number of picks to 4.

In operation 410, the server 105 transmits a second resource acquisition word prompt message to other resource acquisition devices (e.g., the second resource acquisition device 103) other than the first resource acquisition device 102. The second resource acquisition word prompt message includes pinyin or characters of the transfer keyword. In the above example, the server 105 may send "qiong" or "poor" to the second resource acquisition device 103.

In operation 411, the server 105 receives a second virtual resource acquisition message from the second virtual resource acquisition device 103. The second virtual resource acquisition message includes a second resource acquisition word.

In operation 412, the server 105 determines an acquisition keyword based on the second resource acquisition word according to a second rule.

In operation 413, the server 105 transfers at least a part of the virtual resource to the second virtual resource acquisition device 103 in a case where the updated transfer keyword matches the acquisition keyword and in a case where the number of virtual resources is greater than zero. For example, at this time, the server 105 may transfer at least a part of the virtual resource to the second virtual resource acquisition apparatus 103.

Assuming that the second resource acquisition word is 'end way in poor way', the acquisition keyword is 'poor'. Server 105 may determine that the updated transfer keyword "poor" matches the retrieval keyword "poor". At this time, the server 105 needs to determine whether the amount of virtual resources is greater than zero. In the above example, it may be determined that the number of virtual resources present is 70 QQ coins, and thus the virtual resources may be transferred to the second resource acquisition device 103 in a similar manner to operation 409.

When the number of the virtual resources is still greater than zero or the number of times of picking up the virtual resources has not reached the maximum number of times of picking up, the server 105 may continue to perform operations of sending a resource acquisition word prompt message to a virtual resource acquisition device that does not pick up the virtual resources, receiving the virtual resource acquisition message, transferring the virtual resources, updating the transfer keywords, and the like.

through the virtual resource exchanging process among the virtual resource sending device 101, the first virtual resource obtaining device 102, the second virtual resource obtaining device 103, and the server 105, the virtual resource obtaining device may obtain the virtual resource in multiple ways, so that the virtual resource obtaining is not implemented in a single way any more, and a user can be prompted to initiate the virtual resource exchanging process by using the virtual resource sending device and the virtual resource obtaining device. The operation process enhances the interactive performance and interactive performance, improves the frequency of virtual resource exchange, and further improves the propagation effect of the virtual resources in the internet.

Fig. 5 is a flowchart illustrating an artificial intelligence based virtual resource transmitting method 500 according to an embodiment of the present disclosure. The virtual resource sending method 500 according to the embodiment of the present disclosure may be applied to any electronic device, for example, a smart phone, a tablet computer, a smart speaker, a smart television, a smart gateway, a smart car device, and the like. Next, the virtual resource transmitting apparatus 101 in fig. 1 will be described as an example.

first, in step S501, one or more suggested transition words are provided.

The virtual resource transmitting apparatus 101 may prompt the first suggested transition word to the user by displaying the suggested transition word. Alternatively, the first suggested transfer word may be any one of the plurality of suggested transfer words acquired in operation 401 in fig. 4.

in step S502, a resource transfer word and a number of virtual resources are obtained, where the resource transfer word is selected from one or more suggested transfer words or a resource transfer word received from a user and meeting a preset criterion.

the virtual resource transmitting apparatus 101 may acquire the resource transfer word and the number of virtual resources in various ways. For example, the virtual resource transmitting apparatus 101 allows the user to input the type and the number of virtual resources that the user wants to distribute, the maximum number of times of getting the virtual resources, and the resource transfer word by providing the user with a key input interface. Of course, the virtual resource transmitting apparatus 101 may also input the resource transfer word and the amount of the virtual resource in other manners by providing a voice input interface or the like to the user. This is not limited by the present application.

The resource transfer word may be one or more suggested transfer words provided in step S501, or may be a resource transfer word received from the user and meeting a preset criterion. Specifically, the preset criteria include: the resource transfer word is any one of idioms, posterities, colloquials, lyrics, plains, celebrities or poems. The virtual resource sending device 101 may determine whether the resource transfer word input by the user satisfies the preset criterion through an artificial intelligence module built in the device or by querying a database. The virtual resource sending device 101 may also send the resource transfer word to the server 105, so that the server can determine whether the resource transfer word meets the preset criterion.

in step S503, a virtual resource transfer request message is transmitted. The virtual resource transfer request message includes the number of virtual resources and a resource transfer word. The virtual resource sending device 101 can inform the server 105 of the virtual resource it has requested to transfer and the amount of the virtual resource through the virtual resource transfer request message.

In addition, the virtual resource sending device 101 may also display one or more suggested transfer words in a case where the resource transfer word does not satisfy a requirement for sending the virtual resource transfer request message. For example, assuming that the user inputs a resource transfer word that does not meet a preset criterion, the virtual resource transmitting apparatus 101 may display a suggested transfer word. Alternatively, the suggested transfer word may be any one of the plurality of suggested transfer words obtained in operation 401 in fig. 4.

The virtual resource sending method 500 may facilitate the user to know the resource transfer word and to participate in the virtual resource exchange process by prompting the resource transfer word. Compared with the password red packet, the virtual resource sending method 500 improves the spreading effect of the virtual resources in the internet.

Fig. 6 is a schematic diagram illustrating an artificial intelligence based virtual resource transmitting device 101 according to an embodiment of the present disclosure. The virtual resource transmission apparatus 101 according to an embodiment of the present disclosure may be any electronic apparatus, and may perform the virtual resource transmission method 500 described above.

The virtual resource transmitting device 101 may generate a transfer word suggestion page 601, a virtual resource transmitting page 602, and a first session page 603.

Specifically, when the user attempts to initiate a transmission process of the virtual resource, the virtual resource transmitting apparatus 101 may generate a transfer word suggestion page 601. Wherein the transfer word suggestion page 601 includes: a resource transfer word input box 6010 and a suggested transfer word display box 6011.

Specifically, the resource transfer word input box 6010 may be used to input a resource transfer word. Suggested transition word display box 6011 may be used to display one or more suggested transition words. Alternatively, the suggested transfer word may be any one of a plurality of suggested transfer words acquired in operation 401 in fig. 4.

As shown in fig. 6, it is assumed that the resource transfer word to be satisfied is idiom. The resource transfer word input box 6010 may display "set to the phrase: …'. Wherein ". said." is used to indicate that the user is requested to input a resource transfer word, etc. The suggested transition word display box 6011 displays one or more suggested transition words, such as "wind and sun", "wind and water rising", "wind and rain smoothing", and "jades have a wind". The user may select the resource transfer word by directly clicking on the suggested transfer words, whereby the suggested transfer words may be directly input into the resource transfer word input box 603. Through the arrangement, the user can participate in the virtual resource transfer process more quickly.

After the user completes the input or selection of the resource transfer word, the virtual resource transmitting apparatus 101 may generate a virtual resource transmitting page 602. The virtual resource sending page 602 includes: virtual resource setup block 6021. The virtual resource setting box 6021 is used to input the number of virtual resources.

In addition, a resource transfer word input box 6010 may be further included on the virtual resource sending page 602, and may be used to input or modify a resource transfer word. Virtual resource send page 602 can also include send button 6023. After completing the input of the resource transfer word and the number of the virtual resources, the user clicks the button to send a virtual resource transfer request message.

Specifically, the virtual resource setting box 6021 is used to input the number of virtual resources. Optionally, the virtual resource setting box 6021 may also be used to input the number of virtual resource retrievals. For example, the virtual resource setting block 6021 may suggest that the user inputs the number of draws of the virtual resource by prompting the total number of people who can participate in the virtual resource draw. For example, fig. 6 shows "the number of red packets: x "and" total amount for inputting the amount of virtual resources: y element ".

after the resource transfer word and the number of virtual resources are input to the resource transfer word input box 6010 and the virtual resource setting box 6021, respectively, the virtual resource transmitting apparatus 101 may transmit a virtual resource transfer request message (e.g., step 401 in fig. 4). The server 105 may verify whether the resource transfer word meets a preset criterion. Of course, the virtual resource sending device 101 may verify whether the resource transfer word meets the preset standard. In the case where the virtual resource transmitting apparatus 101 confirms that the resource transfer word meets the preset standard, a virtual resource transfer request message may be transmitted to the server 105. Specifically, the preset criteria include: the resource transfer word is any one of idioms, posterities, colloquials, lyrics, plains, celebrities or poems.

In case the resource transfer word meets a preset criterion or the user selects a suggested transfer word, the virtual resource sending device 101 generates a first session page 603. Specifically, the first session page 603 displays a session message to which the virtual resource transfer request message has been transmitted, and a session message that displays a transfer state of the virtual resource. Fig. 6 shows a session message "red packet message" that is displayed when the resource transfer word meets the preset criteria or the user selects the suggested transfer word, and the virtual resource transfer request message has been sent: an example of jatropha being "where" jatropha being "is a resource transfer word. The session message to which the virtual resource transfer request message has been transmitted may be displayed on the first session page 603 as a normal session message, or may be displayed on the first session page 603 in a manner of clearly distinguishing from the normal session message (e.g., a red session message). The session message for transferring the state of the virtual resource may be, for example, "the red packet has been picked up" in fig. 6. Of course, the session message indicating the state of the virtual resource is transferred may also indicate which virtual resource acquiring device has acquired the virtual resource, and the number of the acquired virtual resources.

the virtual resource sending apparatus 101 further includes a resource transfer word setting failure popup 6024. The resource transfer word setting failure bullet window 6024 is used for displaying the session message of the virtual resource transfer failure and the suggested transfer word when the resource transfer word does not meet the preset standard. The resource transfer word setting failure popup 6024 may be directly displayed on the virtual resource transmission page 602 in a popup form to prompt a virtual resource transfer failure. For example, assume that the resource transfer word input by user a is "haha" and the predetermined criterion includes that the resource transfer word must be idioms. At this time, if the resource transfer word input by the user a does not meet the preset standard, the resource transfer word setting failure popup 605 may display "the monarch does not recognize the word, and tries 'bringing in wealth and treasure'. Wherein, the "bringing in wealth and treasure" is the suggested transfer word. The suggested transition word may be any one of the plurality of suggested transition words obtained in operation 401 in fig. 4.

The virtual resource sending device 101 can facilitate the user to know the resource transfer word, and facilitate the user to participate in the virtual resource exchange process by prompting the resource transfer word, thereby improving the propagation effect of the virtual resource in the internet.

FIG. 7 is a flowchart illustrating an artificial intelligence based virtual resource acquisition method 700 according to an embodiment of the present disclosure. The virtual resource obtaining method 700 according to the embodiment of the present disclosure may be applied to any electronic device, for example, a smart phone, a tablet computer, a smart speaker, a smart television, a smart gateway, a smart car device, and the like. Next, the virtual resource acquisition device 102 in fig. 1 is explained as an example.

first, in step S701, a virtual resource to-be-transferred message is received and output. The message to be transferred of the virtual resource comprises a resource transfer word. With continued reference to fig. 4, the virtual resource acquisition device 102 may receive a virtual resource to be transferred message including the resource transfer word "wind and sun" in operation 404 and output the message to the user.

in step S702, a resource acquisition word prompt message is received and output. The resource acquisition word prompt message may be a resource acquisition word prompt message received in operation 405. For example, the resource acquisition word prompt message may be "li" or "li".

In step S703, a resource acquisition word is acquired and a virtual resource acquisition message is sent. The virtual resource acquisition message includes the resource acquisition word.

The virtual resource acquisition device 102 may acquire the resource acquisition word in various ways. For example, the virtual resource acquisition device 102 allows the user to input the resource acquisition word by providing the user with an input interface. After acquiring the resource acquisition word, the virtual resource acquisition device 102 sends a virtual resource acquisition message to the server 105. For example, the virtual resource acquisition message may be the first virtual resource acquisition message in operation 406 in FIG. 4, and the resource acquisition word may be "force infinity".

In step S704, the acquisition result of the virtual resource is received.

optionally, the virtual resource acquiring device 102 may further receive and output a transition state of the virtual resource, where the resource acquiring word prompt message is generated based on the transition state of the virtual resource. For example, in the case where part of the virtual resources has been taken by another user, and thus both the transfer keyword and the number of virtual resources have been updated, the virtual resource acquisition device 102 may output, for example, "user D has taken a red envelope". At this time, based on the transition state of the virtual resource, the resource acquisition word prompt message may be updated to the updated pinyin or characters of the transition keyword.

The virtual resource obtaining method 700 can facilitate the user to participate in the resource obtaining and exchanging process through the resource obtaining word prompt message, and reduce the difficulty of the user participating in the activity while ensuring the transmission effect of the virtual resource exchange in the internet.

Fig. 8 is a schematic diagram illustrating an artificial intelligence based virtual resource acquisition device 102 according to an embodiment of the present disclosure. The virtual resource acquisition device 102 according to an embodiment of the present disclosure may be any electronic device.

The resource acquisition device 800 may generate a second session page 801. The second session page 801 includes a virtual resource display area 8010, a resource get word prompt window 8011, and a resource get word input window 8012.

The virtual resource display area 8010 is used to display a session message in which a virtual resource requesting transfer exists. The session message includes a resource transfer word. For example, the session message may be the "red packet message: yushu has a wind.

When the user B attempts to acquire the virtual resource, the resource acquisition word prompt window 8011 is configured to display a resource acquisition word prompt message. The resource acquisition word prompt message includes pinyin or characters of the transfer keyword. For example, the pinyin "Feng" for the transition keyword shown in FIG. 8. The virtual resource acquisition device 102 may acquire the resource acquisition word prompt message through its built-in function module, for example, by identifying the pinyin of the transfer keyword through its built-in artificial intelligence module or by querying a database to identify the pinyin of the transfer keyword. The virtual resource acquisition device 102 may also receive a resource acquisition wording cue message from the server 105, for example, the virtual resource acquisition device 102 may receive the resource acquisition wording cue message directly in operation 405.

The resource acquisition word input window 8012 is used to input the first resource acquisition word. The user B can input a corresponding resource acquisition word in the resource acquisition word input window 8012 according to the prompt message shown in the resource acquisition word prompt window 802. Thereafter, the virtual resource acquisition device 102 may embed the first resource acquisition word into the first virtual resource acquisition message and send it to the server 105.

After determining that the transfer keyword matches the acquisition keyword by the server 105, and transferring at least a part of the virtual resource to the first virtual resource acquisition device 102, the second session page 801 is further configured to display a session message of the acquired virtual resource when the virtual resource is acquired. The conversation message may be "wind and japanese √" as shown in fig. 8. Here, "wind and japanese" is a first resource acquisition word, and "v" indicates that the user B successfully acquires the virtual resource. The second session page 801 may also display a prompt message "user B has picked up the red envelope" to further prompt user B to acquire the virtual resource.

The second session page 801 is also used to display the resource acquisition status of other virtual resource acquisition devices. For example, suppose that user C and user D are also participating in the virtual resource pickup. The second session page 801 may also display their virtual resource pickup. As shown in fig. 8, user C has sent the resource acquisition word "luxuriant" after user B. Since the server 105 has received the first resource acquisition message sent by the user B before receiving the resource acquisition message of the user C and successfully transferred the virtual resource to the user B, the "transfer keyword" has been updated based on the first resource acquisition word at this time. Assume that the updated transition keyword is "beautiful". In the above case, the user C does not acquire the virtual resource. It is displayed on the second session page 801 that user C has not obtained the virtual resource. And the user D inputs the 'force infinity', and the acquired keywords in the 'force infinity' are possibly matched with the transfer keyword 'beauty', so that the user D acquires the virtual resource.

The resource acquisition word input window 8012 is further configured to display a second resource acquisition word prompt message after the transfer keyword is updated. The second resource acquisition word prompt message comprises the updated pinyin or characters of the transfer keywords. For example, when the transition keyword is updated to "Li", the resource acquirement word input window 8012 will display "Li" or "Li".

The virtual resource obtaining device 102 may facilitate the user to know the resource transfer word, and prompt the resource obtaining word through the resource obtaining word prompt window, so that the user may participate in the virtual resource exchange process, and the propagation effect of the virtual resource in the internet is improved.

Fig. 9 is an application example 900 according to an embodiment of the present disclosure. In application example 900, the virtual resource transmitting device 101 may perform an operation of transmitting a red packet. The virtual resource acquisition device 102 may perform the operation of receiving the red packet. The red packet belongs to one of the above virtual resources, which may correspond to electronic money, QQ coins, or other virtual resources.

specifically, the operation of the red packet includes: enter chat interface, select/enter idioms, and verify that idioms are compliant. A user who has a red envelope, after successfully selecting/entering an idiom, can edit the amount and issue the red envelope. If the input content of the user who sends the red packet is not compliant, the operation of selecting/inputting the idiom is returned.

The red packet receiving operation includes receiving a red packet message. After the user clicks the red packet message, the operation of receiving the red packet further includes capturing the initial final-word pinyin through an Artificial Intelligence (AI) module of the server or an AI module built in the virtual resource acquisition device 102. The virtual resource acquisition device 102 may further perform the operations of: the pinyin prompt is displayed through the floating layer, so that a user can input idioms according to pinyin. The virtual resource acquiring device 102 (client) may filter whether the idiom is input by the user through the AI module. For example, when the user inputs "haha", the AI module may determine that the user has not input the correct idiom. The AI module can also determine whether the first word of the idiom input by the user meets the current call-in requirement. The virtual resource acquisition device 102 may then send the idiom to the server 105 (the background), which will traverse the thesaurus and determine whether the idiom in the red envelope operation matches the idiom in the red envelope operation.

if the idioms in the red packet collecting operation are matched with the idioms in the red packet collecting operation, the user successfully gets the red packet, and other group members can continue to connect the idioms and then rob the red packet.

It may also happen that the idioms in the red envelope operation do not match the idioms in the red envelope operation. For example, there are other users who have previously picked up the red envelope, and the transfer keywords in the dragon red envelope have been updated. The virtual resource acquisition device 102 may return to the operation of displaying the pinyin prompt in the floating layer and continue to rob the red envelope until all red envelopes are picked up.

Fig. 10 is a structural diagram illustrating the virtual resource transfer device 102, the virtual resource transmission device 101, and the virtual resource acquisition device 102 according to the embodiment of the present disclosure.

Referring to fig. 10, the virtual resource transferring apparatus 102, the virtual resource transmitting apparatus 101, and the virtual resource acquiring apparatus 102 may each include a processor 1001 and a memory 1002. The processor 1001 and the memory 1002 and the speech acquisition unit 1004 may be connected by a bus 503. The virtual resource transfer device 1000 may be a tower Server, a Rack Server (Rack), a Blade Server (Blade Server), a Rack Server, or the like.

the processor 1001 may perform various actions and processes according to programs stored in the memory 1002. In particular, the processor 1001 may be an integrated circuit chip having signal processing capabilities. The processor may be a general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components. The various methods, steps, and logic blocks disclosed in the embodiments of the present application may be implemented or performed. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, which may be of the X810 architecture or the ARM architecture.

The memory 1002 stores computer instructions that, when executed by the processor 1001, implement the voice wake-up method 200 described above. The memory 1002 may be either volatile memory or nonvolatile memory, or may include both volatile and nonvolatile memory. The non-volatile memory may be read-only memory (ROM), programmable read-only memory (PROM), erasable programmable read-only memory (EPROM), electrically erasable programmable read-only memory (EEPROM), or flash memory. Volatile memory can be Random Access Memory (RAM), which acts as external cache memory. By way of example, but not limitation, many forms of RAM are available, such as Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), Synchronous Dynamic Random Access Memory (SDRAM), Double Data Rate Synchronous Dynamic Random Access Memory (DDRSDRAM), Enhanced Synchronous Dynamic Random Access Memory (ESDRAM), Synchronous Link Dynamic Random Access Memory (SLDRAM), and direct memory bus random access memory (DR RAM). It should be noted that the memories of the methods described herein are intended to comprise, without being limited to, these and any other suitable types of memory.

The present disclosure also provides a computer-readable storage medium having stored thereon computer instructions that, when executed by a processor, may implement any of the virtual resource transfer method 300, the virtual resource sending method 500, and the virtual resource acquisition method 700 described above. Similarly, computer-readable storage media in embodiments of the disclosure may be either volatile memory or nonvolatile memory, or may include both volatile and nonvolatile memory. It should be noted that the computer-readable storage media described herein are intended to comprise, without being limited to, these and any other suitable types of memory.

The method can enrich application scenes of virtual resource sending, obtaining and transferring and can meet the requirements of users on diversified virtual resource obtaining modes by judging whether an obtaining keyword in a first resource obtaining word in a virtual resource obtaining message is matched with a transferring keyword in a resource transferring word in a virtual resource transferring request message.

It is to be noted that the flowchart and block diagrams in the figures illustrate the architecture, functionality, and operation of possible implementations of systems, methods and computer program products according to various embodiments of the present disclosure. 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 and/or flowchart illustration, and combinations of blocks in the block diagrams and/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.

In general, the various example embodiments of this disclosure may be implemented in hardware or special purpose circuits, software, firmware, logic or any combination thereof. Certain aspects may be implemented in hardware, while other aspects may be implemented in firmware or software which may be executed by a controller, microprocessor or other computing device. While aspects of embodiments of the disclosure have been illustrated or described as block diagrams, flow charts, or using some other pictorial representation, it is well understood that the blocks, apparatus, systems, techniques or methods described herein may be implemented in, as non-limiting examples, hardware, software, firmware, special purpose circuits or logic, general purpose hardware or controller or other computing devices, or some combination thereof.

The exemplary embodiments of the invention, as set forth in detail above, are intended to be illustrative, not limiting. It will be appreciated by those skilled in the art that various modifications and combinations of the embodiments or features thereof may be made without departing from the principles and spirit of the invention, and that such modifications are intended to be within the scope of the invention.

Claims (15)

1. a virtual resource transfer method based on artificial intelligence comprises the following steps:

Receiving a virtual resource transfer request message, wherein the virtual resource transfer request message comprises a resource transfer word;

determining a transfer keyword based on the resource transfer word according to a first rule;

Receiving a first virtual resource acquisition message from a first virtual resource acquisition device, wherein the first virtual resource acquisition message comprises a first resource acquisition word;

Determining to acquire a keyword based on the first resource acquisition word according to a second rule, wherein the second rule is different from the first rule;

Transferring at least a portion of the virtual resource to the first virtual resource acquisition device if the transfer keyword matches the acquisition keyword.

2. The virtual resource transfer method of claim 1,

Determining a transfer keyword based on the resource transfer word according to a first rule comprises: determining a text at a first specific position in the resource transfer word as the transfer keyword;

determining to acquire the keyword based on the first resource acquisition word according to a second rule comprises: determining a text at a second specific position in the first resource acquisition word as the acquisition keyword, wherein the second specific position is different from the first specific position.

3. The virtual resource transfer method of claim 1, wherein the transfer keyword is determined to match the acquisition keyword if the transfer keyword and the acquisition keyword satisfy at least one of:

The acquisition keyword and the transfer keyword have the same pinyin,

The acquisition keyword and the transfer keyword have the same radical or radical,

the acquisition keyword and the transfer keyword are the same word, an

At least one of the first resource acquisition word and the resource transfer word is any one of idioms, posterals, colloquials, lyrics, plains, celebrities, or poems.

4. the virtual resource transfer method of claim 1 wherein the virtual resource transfer request message further includes the amount of the virtual resource, the method further comprising:

Under the condition that the transfer keyword is matched with the acquisition keyword, updating the transfer keyword based on the first resource acquisition word according to the first rule, and updating the number of the virtual resources;

Receiving a second virtual resource acquisition message, wherein the second virtual resource acquisition message comprises a second resource acquisition word and an identifier of a second virtual resource acquisition device;

Determining to acquire a keyword based on the second resource acquisition word according to a second rule;

Transferring at least a portion of the virtual resource to the second virtual resource acquisition device based on the identifier of the second virtual resource acquisition device when the updated transfer keyword matches the acquisition keyword and when the number of virtual resources is greater than zero.

5. The virtual resource transfer method of claim 1, further comprising:

Providing a resource transfer word suggestion message, the resource transfer word suggestion message comprising one or more suggested transfer words.

6. The virtual resource transfer method of claim 1, further comprising:

And providing a resource acquisition word prompt message, wherein the resource acquisition word prompt message comprises pinyin or characters of the transfer keywords.

7. An artificial intelligence based virtual resource transfer apparatus comprising:

A processor for processing the received data, wherein the processor is used for processing the received data,

A memory having stored thereon computer instructions which, when executed by the processor, implement the method of any of claims 1-6.

8. A virtual resource sending method based on artificial intelligence comprises the following steps:

Providing one or more suggested transition words;

acquiring resource transfer words and the number of virtual resources, wherein the resource transfer words are selected from the one or more suggested transfer words or received from a user and meet preset standards;

transmitting a virtual resource transfer request message including the number of virtual resources and the resource transfer word,

Wherein the suggested transition word meets the preset criteria.

9. An artificial intelligence based virtual resource sending device, comprising:

a processor for processing the received data, wherein the processor is used for processing the received data,

A memory storing computer instructions that, when executed by the processor, implement the virtual resource transmission method of claim 8.

10. The virtual resource sending device of claim 9, wherein the computer instructions, when executed by the processor, further implement operations comprising:

generating a transition word suggestion page, the transition word suggestion page comprising:

A resource transfer word input box for inputting a resource transfer word;

A suggested transfer word display box for displaying one or more suggested transfer words;

Generating a virtual resource transmission page, the virtual resource transmission page comprising:

A virtual resource setting box for inputting the number of virtual resources;

And generating a first session page for displaying the session message sent by the virtual resource transfer request message and displaying the session message of the transfer state of the virtual resource.

11. a virtual resource acquisition method based on artificial intelligence comprises the following steps:

receiving and outputting a virtual resource message to be transferred, wherein the virtual resource message to be transferred comprises a resource transfer word;

receiving and outputting a resource acquisition word prompt message;

acquiring a resource acquisition word and sending a virtual resource acquisition message, wherein the virtual resource acquisition message comprises the resource acquisition word; and

And receiving the acquisition result of the virtual resource.

12. The virtual resource acquisition method of claim 11, further comprising:

receiving and outputting the transfer state of the virtual resource;

wherein the resource acquisition word prompt message is generated based on a transition state of the virtual resource.

13. An artificial intelligence-based virtual resource acquisition device comprising:

A processor for processing the received data, wherein the processor is used for processing the received data,

A memory storing computer instructions that, when executed by the processor, implement the method of any of claims 11-12.

14. The virtual resource acquisition device of claim 13, wherein the computer instructions, when executed by the processor, further perform operations comprising:

Generating a second session page, the second session page comprising:

the virtual resource display area is used for displaying a session message of the virtual resource which is requested to be transferred, and the session message comprises a resource transfer word;

The resource acquisition word prompt window is used for displaying the resource acquisition word prompt message;

And the resource acquisition word input window is used for inputting the resource acquisition words.

15. A computer readable storage medium having stored thereon computer instructions which, when executed by a processor, implement the method of any one of claims 1-6, 8, 11-12.