CN108364173B - Digital asset processing method and device for e-commerce platform - Google Patents

Abstract

The application discloses a digital asset processing method and device for an e-commerce platform. The method comprises the steps of collecting operation data of a first user and a second user in an e-commerce platform; judging whether the operation data meet a preset weight value or not; and if the operation data is judged to meet the preset weight value, executing preset digital asset token issuing operation on the first user and the second user. The method and the device solve the technical problem that the digital asset processing mode for the E-commerce platform is single. According to the method and the system, the contribution of each user or merchant to the development of the e-commerce platform is evaluated by using data which is more real, more comprehensive and more suitable for different business scenes through an artificial intelligence technology. The digital asset token is available for consumption by the user as a reward. In addition, the operations of issuing, transferring, consuming and destroying the digital asset token are recorded on the blockchain, and are transparent and not falsifiable.

Description

Digital asset processing method and device for e-commerce platform

Technical Field

The application relates to the field of block chains, in particular to a digital asset processing method and device for an e-commerce platform.

Background

Most of the e-commerce platforms adopt a centralized system, most of the consumption reward mechanisms are points issued by a central institution, and the points can only be circulated on the e-commerce platforms of the e-commerce platforms.

The inventor finds that the encrypted token reward issued on the blockchain is mainly determined by a consensus mechanism such as POW or POS and the like, and the reward is seized by the strength of calculation or determined by some election mode, the corresponding node obtaining the reward provides workload evidence, the main task is to confirm the transfer record, and all behaviors and data come from the blockchain network. All rules on the blockchain are not modifiable after the initial determination of the design; the flexibility and the expandability are poor; meanwhile, the definition of workload is single, and data are all from the block chain network and are relatively closed. Furthermore, the points of the e-commerce platform cannot circulate across the platform without further upgrade space, and the investment attribute is weak.

Aiming at the problem that the digital asset processing mode for the e-commerce platform in the related art is single, an effective solution is not provided at present.

Disclosure of Invention

The present application mainly aims to provide a digital asset processing method for an e-commerce platform, so as to solve the problem that the digital asset processing method for the e-commerce platform is relatively single.

To achieve the above object, according to one aspect of the present application, there is provided a digital asset processing method for an e-commerce platform.

The digital asset processing method for the e-commerce platform comprises the following steps: collecting operation data of a first user and a second user in an e-commerce platform; judging whether the operation data meet a preset weight value or not; and if the operation data is judged to meet the preset weight value, executing preset digital asset token issuing operation on the first user and the second user. The artificial intelligence module calculates the weight of the acquired workload contribution based on the business data, and determines the digital asset token reward limit for each user or business according to the weight value, and meanwhile, the workload evaluation module can evolve continuously along with the business development and can be applied to different business fields.

Further, determining whether the operation data satisfies a preset weight value includes: judging whether the operation data meets a contribution weight value; if the operation data is judged to meet the preset weight value, the step of executing preset digital asset token issuing operation on the first user and the second user comprises the following steps: and if the operation data is judged to meet the contribution weight value, performing rewarding digital asset token issuing operation on the first user and the second user.

Further, determining whether the operation data satisfies a preset weight value includes: collecting the operation data as a training set and training to obtain a judgment and evaluation model; judging whether the corresponding rewarding digital asset token issuing operation executed on the first user and the second user is satisfied or not according to the intelligent contract and the contribution weight value of the judgment and evaluation model; generating a first digital wallet address for a first user while generating a second digital wallet address for a second user; and using the first digital wallet address and the second digital wallet address as addresses issued as digital asset tokens.

Further, if it is determined that the operation data satisfies a preset weight value, performing a preset digital asset token issuing operation on the first user and the second user includes: building a block chain; taking the first user and the second user as the block chain excavation node to judge that the operation data meets a preset weight value; and the digital asset tokens are mutually transferred through the blockchain.

Further, the collecting of the operation data types of the first user and the second user in the e-commerce platform includes one or more of the following: user sales data, user login data, user access behavior data and user registration information data.

Further, the first user is a consumer of the e-commerce platform and the second user is a merchant of the e-commerce platform.

To achieve the above object, according to another aspect of the present application, there is provided a digital asset processing device for an e-commerce platform.

The digital asset processing device for the e-commerce platform according to the present application includes: the acquisition module is used for acquiring operation data of a first user and a second user in the e-commerce platform; the judging module is used for judging whether the operation data meets a preset weight value or not; and the execution module is used for judging that the operation data meets a preset weight value and executing a preset digital asset token issuing operation on the first user and the second user.

Further, the judging module comprises: a weight determination unit, the execution module comprising: the weight judging unit is used for judging whether the operation data meets the contribution weight value; the first issuing unit is configured to execute a reward digital asset token issuing operation on the first user and the second user when it is determined that the operation data satisfies the contribution weight value.

Further, the judging module comprises: the system comprises an acquisition unit, a first judgment unit, an address generation unit and a second issuing unit, wherein the acquisition unit is used for acquiring the operation data as a training set and training the operation data to obtain a judgment evaluation model; the first judging unit is used for judging whether the condition of executing corresponding rewarding digital asset token issuing operation on the first user and the second user is met or not according to the intelligent contract and the contribution weight value of the judgment and evaluation model; the address generation unit is used for generating a first digital wallet address for a first user and simultaneously generating a second digital wallet address for a second user; and the second issuing unit is used for using the first digital wallet address and the digital wallet address as addresses issued by the digital asset token.

Further, the execution module includes: the system comprises an establishing unit, a judging unit and a transferring unit, wherein the establishing unit is used for establishing a block chain; the judging unit is used for taking the first user and the second user as the block chain excavation node to judge that the operation data meet a preset weight value; and the transfer unit is used for mutually transferring the digital asset tokens through the block chain.

In the embodiment of the application, the operation data of the first user and the second user in the e-commerce platform is collected, and whether the operation data meets the preset weight value or not is judged, so that the purpose of executing the operation of issuing the preset digital asset token to the first user and the second user is achieved, the technical effect of contribution evaluation on the first user and the second user is achieved, and the technical problem that the digital asset processing mode for the e-commerce platform is single is solved. In addition, the second user may be rewarded for consumption with a digital asset token, the digital asset token having investment attributes.

Furthermore, the digital asset token issued on the block chain is used for replacing the reward of points in the traditional mall, the problem that the points cannot be circulated outside the mall is solved, and the digital asset token has investment attributes, so that consumers can share the profit brought by the development of the mall.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, serve to provide a further understanding of the application and to enable other features, objects, and advantages of the application to be more apparent. The drawings and their description illustrate the embodiments of the invention and do not limit it. In the drawings:

FIG. 1 is a schematic diagram of a digital asset processing method for an e-commerce platform according to a first embodiment of the present application;

FIG. 2 is a schematic diagram of a digital asset processing method for an e-commerce platform according to a second embodiment of the present application;

FIG. 3 is a schematic diagram of a digital asset processing method for an e-commerce platform according to a third embodiment of the present application;

FIG. 4 is a schematic diagram of a digital asset processing method for an e-commerce platform according to a fourth embodiment of the present application;

FIG. 5 is a schematic diagram of a digital asset processing device for an e-commerce platform according to a first embodiment of the present application;

FIG. 6 is a schematic diagram of a digital asset processing device for an e-commerce platform according to a second embodiment of the present application;

FIG. 7 is a schematic diagram of a digital asset processing device for an e-commerce platform according to a third embodiment of the present application;

FIG. 8 is a schematic view of a digital asset processing device for an e-commerce platform according to a fourth embodiment of the present application; and

fig. 9 is a schematic diagram of the principles of the present application when applied to an e-commerce platform.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application described herein may be used. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

The digital asset processing method for the E-commerce platform comprises the steps of collecting operation data of a first user and a second user in the E-commerce platform; judging whether the operation data meet a preset weight value or not; and if the operation data is judged to meet the preset weight value, executing preset digital asset token issuing operation on the first user and the second user. The contribution of each user or merchant to the development of the mall is evaluated by using data which are more real, more comprehensive and more suitable for different business scenes through an artificial intelligence technology, and the artificial intelligence model can self-evolve along with the continuous accumulation of data quantity, is self-adaptive to the continuously developed business scenes and provides more accurate contribution value prediction. The digital asset token issued on the block chain is used for replacing the reward of points in the traditional mall, the problem that the points cannot be circulated outside the mall is solved, and the digital asset token has investment attributes, so that consumers can share profits brought by the development of the mall.

Through the block chain e-commerce platform, a merchant can acquire more user traffic on the e-commerce platform, stock can be sold, a consumer can buy good and cheap things on the e-commerce platform, and in addition, the merchant and the consumer can also acquire digital asset token rewards according to personal contributions and share the income brought by the development of the e-commerce platform together.

As shown in fig. 1, the method includes steps S102 to S106 as follows:

step S102, collecting operation data of a first user and a second user in an e-commerce platform;

after the first user registers and opens an account on the e-commerce platform, the e-commerce platform generates a digital wallet address for the first user in addition to the e-commerce transaction account, and the digital wallet address is bound with the first user account.

After the second user is resident on the platform, the e-commerce platform also binds a unique digital wallet address for the second user, and the wallet address is a digital asset token address issued by the platform.

Preferably, the weight of different data can be configured differently, for example, the consumption amount of the consumer can be weighted more heavily; for a merchant source, the sales amount weight may be greater.

For example, after a consumer registers and opens an account on an e-commerce platform, the platform generates a digital wallet address for the e-commerce platform in addition to an e-commerce transaction account, and binds the digital wallet address to the e-commerce transaction account, and similarly, after the merchant resides in the platform, the platform also binds a unique digital wallet address for the e-commerce transaction platform, wherein the wallet address is an address of a digital asset token issued by the platform.

The collecting of the operation data to be detected specifically means that the e-commerce platform collects various data of the first user and the second user on the platform, including but not limited to sales data, behavior data of user login and browsing, registration information of the first user and the second user, and the like. Meanwhile, the data are opened to the underlying artificial intelligence module to serve as a machine learning model to serve as a training data set of the machine learning model, and the latest data of each first user and each second user are input into the model for contribution evaluation in a set period.

For example, the platform may collect various data of users and merchants on the platform, including sales data, behavior data of user login and browsing, and registration information of users and merchants.

Step S104, judging whether the operation data meets a preset weight value;

if the preset weight value is satisfied, a contribution evaluation model is constructed by an Artificial Intelligence computing module (AI for short) part in the block chain module at the bottom layer according to the collected data to evaluate the contribution of each user or merchant to the development of the e-commerce platform, and the contribution is used as the basis for the user or the merchant to obtain the digital asset token reward.

And step S106, if the operation data is judged to meet the preset weight value, executing preset digital asset token issuing operation on the first user and the second user.

Preferably, the POW mechanism is customized according to different service scenes, the service data is input into the machine learning model to calculate a weight result, the weight result is transmitted to the nodes of the private chain, and digital asset token rewards with corresponding proportions are issued to corresponding accounts according to the established intelligent contracts.

The account is that after the first user registers and opens an account on the e-commerce platform, the e-commerce platform generates a digital wallet address for the first user in addition to the e-commerce transaction account, and the digital wallet address is bound with the first user account. And after the second user is resident on the platform, the e-commerce platform also binds a unique digital wallet address for the second user, wherein the wallet address is a digital asset token address issued by the platform.

According to the characteristics, the decentralized of the block chain can control the daily issuing quantity of the digital asset tokens by the bottom layer block chain technology, is not controlled by a central mechanism, and is transparent and credible under the joint supervision of all users.

From the above description, it can be seen that the present invention achieves the following technical effects:

in the embodiment of the application, the operation data of the first user and the second user in the e-commerce platform is collected, and whether the operation data meets the preset weight value or not is judged, so that the purpose of executing the operation of issuing the preset digital asset token to the first user and the second user is achieved, the technical effect of contribution evaluation on the first user and the second user is achieved, and the technical problem that the digital asset processing mode for the e-commerce platform is single is solved. In addition, the second user may be rewarded for consumption with a digital asset token, the digital asset token having investment attributes.

According to the embodiment of the present invention, as a preferable preference of the embodiment, as shown in fig. 2, the determining whether the operation data satisfies the preset weight value includes:

step S202, judging whether the operation data meets a contribution weight value;

through the block chain-based e-commerce platform, the second user can obtain more user traffic at the e-commerce platform, and inventory can be sold. The first user may purchase the corresponding item at the e-commerce platform. In addition, the first user and the second user also need to obtain digital asset token rewards according to their own contributions, and share the revenue brought by the development of the e-commerce platform together.

For example, when a merchant can obtain more user traffic on the e-commerce platform, inventory can be sold. In addition, the merchants can obtain digital asset token rewards according to personal contributions and share the revenue generated by the development of the e-commerce platform.

For another example, consumers can buy cheap and good products on the e-commerce platform. In addition, consumers can also obtain digital asset token rewards according to personal contributions and share the revenue brought by the development of the e-commerce platform together.

According to the characteristics, the behavior and transaction data of merchants and users on the E-commerce platform are evaluated and analyzed through an artificial intelligence technology, the contribution value of each person is calculated, and the machine learning model can be continuously improved along with the accumulation of data volume so as to give more accurate contribution evaluation.

If the operation data is judged to meet the preset weight value, the step of executing preset digital asset token issuing operation on the first user and the second user comprises the following steps:

step S204, if the operation data is judged to meet the contribution weight value, a reward digital asset token issuing operation is executed on the first user and the second user.

And judging that the operation data meets the contribution weight value by using an artificial intelligence algorithm, and further evaluating the contribution weight value of each user or each merchant on the development of the sharing e-commerce platform based on user transaction and behavior data provided by the e-commerce platform. According to the characteristics, a scheme for obtaining the Token reward according to the contribution value is well established based on the intelligent contract technology, and the intelligent contract is transparent and cannot be tampered once issued; the method has the advantages of no need of manual accounting, high efficiency and high integrity.

According to the embodiment of the present invention, as a preferable preference of the embodiment, as shown in fig. 3, the determining whether the operation data satisfies the preset weight value includes:

step S302, collecting the operation data as a training set and training to obtain a judgment and evaluation model;

the collected user operation data is used as a training set, and the user operation data which can be used as the training set may include, but is not limited to, sales data, behavior data of user login and browsing, registration information of the first user and the second user, and the like.

Step S304, judging whether the requirement of executing corresponding rewarding digital asset token issuing operation on the first user and the second user is met or not according to the intelligent contract and the contribution weight value of the judgment and evaluation model;

and constructing a contribution evaluation model based on the artificial intelligence module in the blockchain module according to the acquired data to evaluate the contribution of each first user or the second user to the development of the e-commerce platform, so that the contribution is used as a basis for the first user or the second user to obtain the reward of the digital asset token. And judging whether the execution of the reward digital asset token issuing operation on the first user and the second user is satisfied, and judging according to the contribution weight value in the shared evaluation model.

Preferably, the artificial intelligence module trains and optimizes the effect of the reward evaluation model through continuous machine learning, and the reward evaluation model is used for evaluating the number of tokens of the corresponding digital assets which each user should acquire as rewards according to input user behaviors and transaction data as variables.

The judgment method can be that the block chain part at the bottom layer is a block chain network built by adopting a block chain technology, a first user and a second user in the E-commerce platform can be considered as an ore digging node, and the judgment of the workload certification is based on a contribution evaluation model in the artificial intelligence module. And establishing a block chain digital asset token issuing strategy.

Specifically, for example, the digital asset token has a fixed production per day, and the production is halved every 365 days. Digital asset tokens are incentives for each user and merchant to contribute to the e-commerce platform development. And meanwhile, distributing the digital asset tokens produced in the current day to all users and merchants of the E-commerce platform according to the intelligent contract and the weight values calculated by the artificial intelligence contribution evaluation model.

Step S306, generating a first digital wallet address for the first user and a second digital wallet address for the second user;

step S308, the first digital wallet address and the digital wallet address are used as addresses issued by the digital asset token. And judging whether the reward digital asset token issuing operation performed on the first user and the second user is satisfied, if so, issuing the reward to the first digital wallet address and the second digital wallet address as digital asset token according to the condition that the weight value of the reward digital asset token is satisfied.

According to the embodiment of the present invention, as shown in fig. 4, as a preferable preference of this embodiment, if it is determined that the operation data satisfies a preset weight value, the performing a preset digital asset token issuing operation on the first user and the second user includes:

step S402, building a block chain;

when the block chain is established, the block chain part at the bottom layer is a block chain network established by adopting a block chain technology, a first user and a second user in the E-commerce platform can be considered as an ore digging node, and the judgment of the workload certification is based on a contribution evaluation model in the artificial intelligence module.

Step S404, the first user and the second user are used as the block chain excavation node to judge that the operation data meet a preset weight value;

the digital asset token is an incentive for contribution of each first user and each second user to the development of the e-commerce platform, and the digital asset token is distributed to all the first users and all the second users of the platform according to the weight values calculated by the contribution evaluation model in the artificial intelligence module by adopting an intelligent contract technology.

At step S406, the digital asset tokens are mutually transferred through the blockchain.

When the digital asset tokens transfer money through the block chain, a scheme for obtaining Token rewards according to contribution values is well established based on an intelligent contract technology, once the intelligent contract is issued, the intelligent contract is transparent and can not be tampered, manual accounting is not needed, the efficiency is high, and the integrity is high.

The steps shown or described may be performed in a computer system such as a set of computer-executable instructions, and although a logical order is shown in the flowcharts, in some cases, the steps shown or described may be performed in an order different than here.

According to an embodiment of the present invention, there is also provided an apparatus for implementing the above-mentioned digital asset processing method for an e-commerce platform, as shown in fig. 5, the apparatus including: the acquisition module 10 is used for acquiring operation data of a first user and a second user in the e-commerce platform; the judging module 20 is used for judging whether the operation data meet a preset weight value; and the execution module 30 is configured to determine that the operation data meets a preset weight value, and execute a preset digital asset token issuing operation on the first user and the second user.

In the acquisition module 10 of the embodiment of the present application, after the first user registers and opens an account on the e-commerce platform, in addition to the e-commerce transaction account, the e-commerce platform also generates a digital wallet address for the first user, and the digital wallet address is bound to the first user account.

After the second user is resident on the platform, the e-commerce platform also binds a unique digital wallet address for the second user, and the wallet address is a digital asset token address issued by the platform.

For example, after a consumer registers and opens an account on an e-commerce platform, the platform generates a digital wallet address for the e-commerce platform in addition to an e-commerce transaction account, and binds the digital wallet address to the e-commerce transaction account, and similarly, after the merchant resides in the platform, the platform also binds a unique digital wallet address for the e-commerce transaction platform, wherein the wallet address is an address of a digital asset token issued by the platform.

The collecting of the operation data to be detected specifically means that the e-commerce platform collects various data of the first user and the second user on the platform, including but not limited to sales data, behavior data of user login and browsing, registration information of the first user and the second user, and the like. Meanwhile, the data are opened to an underlying artificial intelligence module to serve as a machine learning model to serve as a training data set of the machine learning model, and the latest data of each first user and each second user are input into the model every day for contribution evaluation.

For example, the platform may collect various data of users and merchants on the platform, including sales data, behavior data of user login and browsing, and registration information of users and merchants.

The judgment module 20 of the embodiment of the present application may satisfy the preset weight value, where an Artificial Intelligence computing module (AI) part in the underlying blockchain module constructs a contribution evaluation model according to the collected data to evaluate the contribution of each user or merchant to the development of the e-commerce platform, so as to serve as a basis for the user or merchant to obtain the digital asset token reward.

In the execution module 30 of the embodiment of the present application, preferably, the POW mechanism is customized according to different service scenarios, and the service data is input into the machine learning model to calculate a weight result, and then is transmitted to the node of the private chain, and a digital asset token reward with a corresponding proportion is issued to a corresponding account according to a formulated intelligent contract.

For example, the execution module 30 proportionally sends the newly added Token to the wallet address of the corresponding user or merchant every day according to the weight value of each user or merchant calculated by the workload evaluation module.

The account is that after the first user registers and opens an account on the e-commerce platform, the e-commerce platform generates a digital wallet address for the first user in addition to the e-commerce transaction account, and the digital wallet address is bound with the first user account. And after the second user is resident on the platform, the e-commerce platform also binds a unique digital wallet address for the second user, wherein the wallet address is a digital asset token address issued by the platform.

In some embodiments, the digital asset processing device for an e-commerce platform further comprises: and the digital asset token issuing module is used for generating the block speed and the number of the digital asset tokens which are newly added corresponding to each block based on the bottom layer block chain, and newly adding a certain number of digital asset tokens every day. Those skilled in the art will appreciate that the digital asset tokens are stored at nodes in the blockchain network.

In some embodiments, the digital asset processing device for an e-commerce platform further comprises: and the digital asset token transfer module is used for enabling the first user or the second user to transfer the digital asset token in the blockchain wallet to other people, and only provides a wallet address supporting the digital asset token and can be actively triggered by the user giving the digital asset token.

In some embodiments, the digital asset processing device for an e-commerce platform further comprises: a digital asset token consumption module for accepting partial and/or full digital asset token payments for a merchant-provided good in an e-commerce platform.

In some embodiments, the digital asset processing device for an e-commerce platform further comprises: and the digital asset token transaction module is used for accessing an account system of a third-party platform supporting the digital asset token transaction in the e-commerce platform, and opening an account in the e-commerce platform and transferring the account to the third-party platform for the digital asset token transaction.

In some embodiments, the digital asset processing device for an e-commerce platform further comprises: the digital asset token destroying module is used for periodically purchasing and destroying the digital asset token by profit in the E-commerce platform, and further continuously improving the value of the digital asset token.

According to the embodiment of the present invention, as a preferable advantage of the embodiment, as shown in fig. 6, the determining module 20 includes: a weight determination unit 201, wherein the execution module 30 comprises: the issuing unit 301, the weight judging unit, is configured to judge whether the operation data satisfies a contribution weight value; the first issuing unit is configured to execute a reward digital asset token issuing operation on the first user and the second user when it is determined that the operation data satisfies the contribution weight value.

In the weight determination unit 201 of the embodiment of the present application, through the block chain-based e-commerce platform, the second user can obtain more user traffic on the e-commerce platform, and can sell the stock. The first user may purchase the corresponding item at the e-commerce platform. In addition, the first user and the second user also need to obtain digital asset token rewards according to their own contributions, and share the revenue brought by the development of the e-commerce platform together.

For example, when a merchant can obtain more user traffic on the e-commerce platform, inventory can be sold. In addition, the merchants can obtain digital asset token rewards according to personal contributions and share the revenue generated by the development of the e-commerce platform.

For another example, the consumer may purchase a good and cheap price in a mall. In addition, consumers can also obtain digital asset token rewards according to personal contributions and share the revenue brought by the development of the e-commerce platform together.

In the issuing unit 301 according to the embodiment of the present application, an artificial intelligence algorithm is used to determine that the operation data meets the contribution weight value, and further, the contribution weight value of each user or merchant for the development of the shared e-commerce platform is evaluated based on the user transaction and behavior data provided by the shared e-commerce platform. The artificial intelligence algorithm may employ artificial intelligence models known to those skilled in the art.

According to the embodiment of the present invention, as a preferable advantage of the embodiment, as shown in fig. 7, the determining module 20 includes: the system comprises an acquisition unit 201, a first judgment unit 202, an address generation unit 203 and a second issuing unit 204, wherein the acquisition unit 201 is used for acquiring the operation data as a training set and training the operation data to obtain a judgment evaluation model; the first judging unit 202 is configured to judge whether a corresponding reward digital asset token issuing operation performed on the first user and the second user is satisfied according to the intelligent contract and the contribution weight value of the judgment and evaluation model; the address generating unit 203 is used for generating a first digital wallet address for a first user and generating a second digital wallet address for a second user; the second issuing unit 204 is configured to use the first digital wallet address and the digital wallet address as addresses issued by the digital asset token.

In the acquisition unit 201 of the embodiment of the present application, the acquired user operation data is used as a training set, and the user operation data that can be used as the training set may include, but is not limited to, sales data, behavior data of user login and browsing, and registration information of a first user and a second user.

In the first determining unit 202 of the embodiment of the application, a contribution evaluating model is constructed based on the artificial intelligence module in the blockchain module according to the acquired data, so as to evaluate the contribution of each first user or the second user to the development of the e-commerce platform, and the contribution is used as a basis for the first user or the second user to obtain the reward of the digital asset token. And judging whether the execution of the reward digital asset token issuing operation on the first user and the second user is satisfied, and judging according to the contribution weight value in the shared evaluation model.

The judgment method can be that the block chain part at the bottom layer is a block chain network built by adopting a block chain technology, a first user and a second user in the E-commerce platform can be considered as an ore digging node, and the judgment of the workload certification is based on a contribution evaluation model in the artificial intelligence module. And establishing a block chain digital asset token issuing strategy.

Specifically, for example, the digital asset token has a fixed production per day, and the production is halved every 365 days. Digital asset tokens are incentives for each user and merchant to contribute to the e-commerce platform development. And meanwhile, distributing the digital asset tokens produced in the current day to all users and merchants of the E-commerce platform according to the intelligent contract and the weight values calculated by the artificial intelligence contribution evaluation model.

According to the embodiment of the present invention, as a preferred embodiment of the present invention, as shown in fig. 8, the executing module 30 includes: the system comprises an establishing unit 301, a judging unit 302 and a transferring unit 303, wherein the establishing unit 301 is used for establishing a block chain; the judging unit 302 is configured to judge, by using the first user and the second user as the block chain excavation node, that the operation data meets a preset weight value; and the transfer unit 303, for transferring the digital asset tokens to each other through the blockchain.

When the block chain is established in the establishing unit 301 in the embodiment of the present application, the block chain network established by using the block chain technology is used for the block chain part at the bottom layer, both the first user and the second user in the e-commerce platform can be considered as an ore excavation node, and the judgment of the workload certification is based on the contribution evaluation model in the artificial intelligence module.

In the determining unit 302 of the embodiment of the present application, the digital asset token is an incentive for each of the first user and the second user to contribute to the development of the e-commerce platform, and the digital asset token is distributed to all of the first user and the second user of the platform according to the weight value calculated by the contribution evaluating model in the artificial intelligence module by using an intelligent contract technology.

When the digital asset tokens in the transfer unit 303 transfer money with each other through the block chain, a scheme for obtaining Token rewards according to contribution values is formulated based on an intelligent contract technology, once the intelligent contract is issued, the intelligent contract is open and transparent and cannot be tampered, manual accounting is not needed, the efficiency is high, and the integrity is high.

Fig. 9 is a schematic diagram illustrating the principle of the application of the present application to an e-commerce platform, which is used for taking various data collected by the e-commerce platform as a training set of an artificial intelligence contribution evaluation model between a consumer, a merchant, and the e-commerce platform, and performing an issuing operation of a digital asset token after a bottom layer evaluates sharing of the consumer or the merchant through a blockchain. The e-commerce platform of the embodiment may include: and the digital asset token issuing module is used for newly adding a certain amount of digital asset tokens every day based on the speed of generating blocks by the bottom layer block chain and the number of the digital asset tokens generated by each block correspondingly, and storing the digital asset tokens in nodes in the block chain network.

And the workload evaluation module is used for evaluating the contribution weight value of each user or each merchant to the development of the sharing e-commerce platform on the basis of the user transaction and behavior data provided by the sharing e-commerce platform by using an artificial intelligence algorithm.

The e-commerce platform collects various data of users and merchants on the e-commerce platform, including sales data, behavior data of user login and browsing, registration information of the users and the merchants and the like. The data can be opened to an underlying artificial intelligence module to serve as a training data set of a machine learning model, and meanwhile, the latest data of each user and each business can be input into the model every day for contribution evaluation. Meanwhile, the artificial intelligence part in the blockchain module constructs a contribution evaluation model according to the collected data to evaluate the contribution of each user or business to the development of the e-commerce platform, and the contribution is used as the basis for obtaining the digital asset token reward.

Specifically, the block chain part at the bottom layer is a block chain network built by adopting a block chain technology, both a user and a merchant in the e-commerce platform can be considered as a mining node, and the judgment of the workload certification is based on a contribution evaluation model in the artificial intelligence module.

And the digital asset token issuing module is used for sending the newly added digital asset tokens to the wallet addresses of the corresponding users or merchants in proportion every day according to the weight value of each user or merchant calculated by the workload evaluation module. After a consumer registers and opens an account on the e-commerce platform, the platform generates a digital wallet address for the consumer in addition to the e-commerce transaction account, and the digital wallet address is bound with the e-commerce transaction account, and similarly, after the merchant is resident on the platform, the platform also binds a unique digital wallet address for the consumer, and the wallet address is a word asset token address issued by the platform.

And the digital asset token transfer module can transfer the digital asset token in the blockchain wallet to others by a user or a merchant, and only provides a wallet address supporting the digital asset token and is actively triggered by the user of the digital asset token. The digital asset token consumption module is used for receiving partial or all payment of the digital asset token for the commodities provided by the merchant in the e-commerce platform. And the e-commerce platform can access an account system of a third-party platform supporting the digital asset token transaction, and opens an account in the e-commerce platform and transfers the account to the third-party platform for the digital asset token transaction. The digital asset token destroying module is used for periodically purchasing and destroying the digital asset token by the E-commerce platform with profits, so that the value of the digital asset token is continuously improved.

The digital asset tokens can be mutually transferred between the purses on the private chain, and meanwhile, the transaction can be carried out on other digital asset transaction platforms supporting the digital asset tokens to exchange other digital asset tokens.

Those skilled in the art will appreciate that the modules or steps of the invention described above can be implemented in a general purpose computing device, centralized on a single computing device or distributed across a network of computing devices, and optionally implemented in program code that is executable by a computing device, such that the modules or steps are stored in a memory device and executed by a computing device, fabricated separately into integrated circuit modules, or fabricated as a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

It should be apparent that the above description is only a preferred embodiment of the present application and is not intended to limit the present application, and that various modifications and changes can be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (6)

1. A digital asset processing method for an e-commerce platform, comprising:

collecting operation data of a first user and a second user in an e-commerce platform;

judging whether the operation data meets a preset weight value comprises the following steps:

collecting the operation data as a training set and training to obtain a judgment and evaluation model;

judging whether the corresponding rewarding digital asset token issuing operation executed on the first user and the second user is satisfied or not according to the intelligent contract and the contribution weight value of the judgment and evaluation model;

generating a first digital wallet address for a first user while generating a second digital wallet address for a second user; and

using the first digital wallet address and the second digital wallet address as addresses issued as digital asset tokens; and

if the operation data is judged to meet the preset weight value, executing preset digital asset token issuing operation on the first user and the second user, wherein the operation comprises the following steps:

building a block chain;

taking the first user and the second user as the block chain excavation node to judge that the operation data meets a preset weight value; and

the digital asset tokens are mutually transferred through the blockchain.

2. The digital asset processing method according to claim 1,

judging whether the operation data meets a preset weight value comprises the following steps:

judging whether the operation data meets a contribution weight value;

if the operation data is judged to meet the preset weight value, the step of executing preset digital asset token issuing operation on the first user and the second user comprises the following steps:

and if the operation data is judged to meet the contribution weight value, performing rewarding digital asset token issuing operation on the first user and the second user.

3. The digital asset processing method according to any of claims 1-2, wherein collecting the type of operational data of the first user and the second user in the e-commerce platform comprises one or more of:

user sales data, user login data, user access behavior data and user registration information data.

4. The digital asset processing method of claim 1, wherein the first user is a consumer of an e-commerce platform and the second user is a merchant of the e-commerce platform.

5. A digital asset processing device for an e-commerce platform, comprising:

the acquisition module is used for acquiring operation data of a first user and a second user in the e-commerce platform;

the judging module is used for judging whether the operation data meets a preset weight value or not; and

the execution module is used for judging that the operation data meet a preset weight value and executing a preset digital asset token issuing operation on the first user and the second user;

the judging module comprises: a weight determination unit, the execution module comprising: a first sending-down unit for sending down the data,

the weight judging unit is used for judging whether the operation data meets a contribution weight value;

the first issuing unit is configured to execute a reward digital asset token issuing operation on the first user and the second user when it is determined that the operation data satisfies the contribution weight value;

the judging module further comprises: a collecting unit, a first judging unit, an address generating unit and a second issuing unit,

the acquisition unit is used for acquiring the operation data as a training set and training the training set to obtain a judgment and evaluation model;

the first judging unit is used for judging whether the condition of executing corresponding rewarding digital asset token issuing operation on the first user and the second user is met or not according to the intelligent contract and the contribution weight value of the judgment and evaluation model;

the address generation unit is used for generating a first digital wallet address for a first user and simultaneously generating a second digital wallet address for a second user;

and the second issuing unit is used for using the first digital wallet address and the digital wallet address as addresses issued by the digital asset token.

6. The digital asset processing device according to claim 5, wherein said execution module comprises: a building unit, a judging unit and a transfer unit,

the establishing unit is used for establishing a block chain;

the judging unit is used for taking the first user and the second user as the block chain excavation node to judge that the operation data meet a preset weight value; and

the transfer unit is used for transferring the digital asset tokens to each other through the block chain.

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