CN117289791A - Meta universe artificial intelligence virtual equipment data generation method - Google Patents
Meta universe artificial intelligence virtual equipment data generation method Download PDFInfo
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- CN117289791A CN117289791A CN202311073605.9A CN202311073605A CN117289791A CN 117289791 A CN117289791 A CN 117289791A CN 202311073605 A CN202311073605 A CN 202311073605A CN 117289791 A CN117289791 A CN 117289791A
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- 238000013473 artificial intelligence Methods 0.000 title claims abstract description 31
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- 238000004519 manufacturing process Methods 0.000 claims abstract description 5
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/011—Arrangements for interaction with the human body, e.g. for user immersion in virtual reality
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- G06Q30/00—Commerce
- G06Q30/06—Buying, selling or leasing transactions
- G06Q30/0601—Electronic shopping [e-shopping]
- G06Q30/0621—Item configuration or customization
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Abstract
The invention provides a meta-space artificial intelligence virtual equipment data generation method, which comprises the following steps: a first step of: designing NFT virtual equipment aiming at metauniverse; and a second step of: manufacturing a physical device based on the designed NFT virtual equipment, the physical device having the same appearance as the NFT virtual equipment; a chip is embedded in the entity equipment, and the chip is provided with a storage unit for storing a unique identification code corresponding to the designed NFT virtual equipment; and a third step of: synchronously selling the designed NFT virtual equipment and the entity equipment manufactured correspondingly to the same user; fourth step: the chip periodically updates the motion trail data of the entity device to the NFT virtual equipment of the design as additional attribute data of the NFT virtual equipment of the design, wherein the unique identification code is used for determining the NFT virtual equipment to be updated with the additional attribute data of the NFT virtual equipment when updating the additional attribute data of the NFT virtual equipment.
Description
Technical Field
The invention relates to the technical field of metauniverse, in particular to a method for generating metauniverse artificial intelligence virtual equipment data.
Background
Metauniverse (Metaverse), which is a digital living space constructed by human beings using digital technology, is a virtual world mapped or surpassed by the real world and can interact with the real world, and is provided with a novel social system.
With the development of metauniverse communities, virtual wearable devices (e.g., virtual shoes such as NFT (Non-homogeneous Token) sports shoes, virtual clothes, virtual hats, etc.) worn by virtual persons within metauniverse are gradually developed and become increasingly colorful. For example, nike cryptookicks under Nike flags together with a virtual fashion platform RTFK have pushed NFT athletic shoes.
Such virtual wearable devices may generally change appearance. For example, the appearance of the above digital wearable device issued by Nike can be changed by the collected "skin bottles" to change the appearance of its shoe body, with thousands of skin options available at the creator's center, with customizable, upgradeable features.
One problem with virtual wearable devices is that it is a metaspace purely virtual device that cannot be worn in a display life. To this end, some merchants have proposed a solution for materializing virtual shoes, specifically based on selling virtual shoe production entity shoes.
However, according to the physical shoes produced by the virtual shoes, the uniqueness of the existing virtual shoes corresponding to the physical shoes cannot be reflected, and the virtual shoes and the physical shoes thereof cannot be logically related.
Disclosure of Invention
The invention aims to solve the technical problems in the prior art, and provides a meta-universe artificial intelligence virtual equipment data generation method which can embody the uniqueness of the existing virtual shoes corresponding to the physical shoes and can logically relate the virtual shoes and the physical shoes thereof.
According to the invention, there is provided a meta-universe artificial intelligence virtual equipment data generation method comprising:
a first step of: designing NFT virtual equipment aiming at metauniverse;
and a second step of: manufacturing a physical device based on the designed NFT virtual equipment, the physical device having the same appearance as the NFT virtual equipment; a chip is embedded in the entity equipment, and the chip is provided with a storage unit for storing a unique identification code corresponding to the designed NFT virtual equipment;
and a third step of: synchronously selling the designed NFT virtual equipment and the entity equipment manufactured correspondingly to the same user;
fourth step: the chip periodically updates the motion trail data of the entity device to the NFT virtual equipment of the design as additional attribute data of the NFT virtual equipment of the design, wherein the unique identification code is used for determining the NFT virtual equipment to be updated with the additional attribute data of the NFT virtual equipment when updating the additional attribute data of the NFT virtual equipment.
The meta-space artificial intelligence virtual equipment data generation method can embody the uniqueness of the existing virtual shoes corresponding to the entity shoes and can logically correlate the virtual shoes with the entity shoes thereof. In addition, according to the meta-universe artificial intelligence virtual equipment data generation method, the entity shoe wearing data are related to the virtual shoe, so that the commemorative meaning and the information storage function of the virtual shoe are improved.
Preferably, the virtual equipment is a virtual wearable device and the chip has a GPS unit; and the GPS unit tracks the movement track data of the entity equipment and records the movement track data of the entity equipment to the storage unit.
Preferably, the additional attribute data of the NFT virtual equipment of the design and the storage unit of the chip both store identity information of the same user who purchases the NFT virtual equipment and related entity devices.
Preferably, the chip uses a blockchain technology to periodically update the motion trail data of the physical device to the NFT virtual equipment of the design.
Preferably, the virtual wearable device includes, for example, virtual shoes, virtual clothing, virtual hats, and virtual gloves.
Preferably, the meta-universe artificial intelligence virtual equipment data generation method further comprises:
fifth step: in the case that the same user who accepts the sale decides to discard the physical device, the same user instructs the chip to update a signal notifying the discard of the physical device to the designed NFT virtual equipment as additional attribute data of the designed NFT virtual equipment;
sixth step: in the case that a signal notifying the rejection of the entity device is added to the additional attribute data of the NFT virtual equipment in the meta-universe, the additional attribute data of the NFT virtual equipment stops updating the information related to the entity device.
Therefore, the additional attribute information related to the entity equipment in the additional attribute data of the NFT virtual equipment has the information of the life cycle synchronized with the entity equipment, and the commemorative meaning and the information storage function of the virtual shoe are further improved.
Preferably, the meta-universe artificial intelligence virtual equipment data generation method further comprises: a method of designing a meta-universe avatar of an associated user based on data of an entity device to which the virtual equipment data is associated.
Preferably, the meta-universe artificial intelligence virtual equipment data generation method further comprises:
seventh step: and taking information related to the entity equipment in the additional attribute data of the NFT virtual equipment as avatar design data of a user to which the NFT virtual equipment belongs.
Preferably, the chip has a motion sensing unit for detecting a motion of the physical device, and the motion data of the physical device sensed by the motion sensing unit is used as avatar design data of a user to whom the NFT virtual equipment belongs.
Preferably, the NFT virtual equipment is professional sports equipment for a particular sports item.
The physical shoes are sold in a key way when the virtual shoes are sold, and the actual wearing data of the associated physical shoes are used as character design parameters, so that the character design is more personalized, and the meta-universe virtual image can reflect the personal individuality of the actual user more accurately.
Drawings
The invention will be more fully understood and its attendant advantages and features will be more readily understood by reference to the following detailed description, when taken in conjunction with the accompanying drawings, in which:
fig. 1 schematically illustrates an overall flow diagram of a meta-cosmic artificial intelligence virtual equipment data generation method according to a preferred embodiment of the invention.
It should be noted that the drawings are for illustrating the invention and are not to be construed as limiting the invention. Note that the drawings representing structures may not be drawn to scale. Also, in the drawings, the same or similar elements are denoted by the same or similar reference numerals.
Detailed Description
In order that the invention may be more readily understood, a detailed description of the invention is provided below along with specific embodiments and accompanying figures.
Fig. 1 schematically illustrates an overall flow diagram of a meta-cosmic artificial intelligence virtual equipment data generation method according to a preferred embodiment of the invention.
As shown in fig. 1, the meta-space artificial intelligence virtual equipment data generation method according to the preferred embodiment of the present invention includes:
a first step S1: designing NFT virtual equipment aiming at metauniverse;
for example, the virtual equipment is a virtual wearable device, such as virtual shoes, virtual clothing, virtual hats, virtual gloves, and the like.
A second step S2: manufacturing a physical device based on the designed NFT virtual equipment, the physical device having the same appearance as the NFT virtual equipment; and a chip is embedded in the entity equipment, and the chip is provided with a storage unit for storing a unique identification code corresponding to the designed NFT virtual equipment.
And, the chip has a GPS unit; the GPS unit tracks the motion trail data of the entity equipment and records the motion trail data of the entity equipment to the storage unit;
third step S3: synchronously selling the designed NFT virtual equipment and the entity equipment manufactured correspondingly to the same user;
fourth step S4: the chip periodically updates the motion trail data of the entity device to the designed NFT virtual equipment as additional attribute data of the designed NFT virtual equipment. The unique identification code is used to determine NFT virtual equipment to be updated with additional attribute data when updating the additional attribute data of the NFT virtual equipment.
In a preferred example, the chip employs blockchain technology to update the physical device's motion trail data to the designed NFT virtual equipment on a periodic basis (e.g., daily, weekly, monthly, etc.).
In a preferred example, the memory cell storage of the chip is erasable, and the unique identification code and track data can be repeatedly written and erased, so that it can be reused.
The meta-space artificial intelligence virtual equipment data generation method can embody the uniqueness of the existing virtual shoes corresponding to the entity shoes and can logically correlate the virtual shoes with the entity shoes thereof. In addition, according to the meta-universe artificial intelligence virtual equipment data generation method, the entity shoe wearing data are related to the virtual shoe, so that the commemorative meaning and the information storage function of the virtual shoe are improved.
In a preferred example, the additional attribute data of the NFT virtual equipment of the design and the memory unit of the chip both store identity information (e.g., the number of an identity document, fingerprint information, eye pupil information, genetic information, etc. that can represent the identity of an individual) of the same user who purchased the NFT virtual equipment and the related entity devices.
In this way, the personal commemorative meaning of the purchasing user is improved; moreover, if the purchasing user is a celebrity or important persona, the commemorative, economic and exchange value of the NFT virtual equipment of the design may be enhanced.
In a further preferred embodiment, further as shown in fig. 1, the meta-space artificial intelligence virtual equipment data generating method according to the preferred embodiment of the present invention may further include:
fifth step S5: in the case that the same user who accepts the sale decides to discard the physical device, the same user instructs the chip to update a signal notifying the discard of the physical device to the designed NFT virtual equipment as additional attribute data of the designed NFT virtual equipment;
for the transmission of a signal informing the entity of the rejection of the device, a button for triggering the information can be provided on the chip, or the chip can be associated with the application in order to trigger the information by the application, for example.
Sixth step S6: in the case that a signal notifying the rejection of the entity device is added to the additional attribute data of the NFT virtual equipment in the meta-universe, the additional attribute data of the NFT virtual equipment stops updating the information related to the entity device.
In this way, the additional attribute information related to the entity device in the additional attribute data of the NFT virtual equipment has the information of the life cycle synchronized with the entity device, and the commemorative meaning and the information storage function of the virtual shoe are further improved.
In a further preferred embodiment, further as shown in fig. 1, the meta-space artificial intelligence virtual equipment data generating method according to the preferred embodiment of the present invention may further include:
seventh step S7: and taking information related to the entity equipment in the additional attribute data of the NFT virtual equipment as avatar design data of a user to which the NFT virtual equipment belongs.
In this further preferred embodiment, there is in effect provided a method of designing a metauniverse avatar based on data of an entity device to which the virtual equipment data is associated. That is, a method of designing a meta-universe avatar of a related user based on data of an entity device to which virtual equipment data is associated may be provided.
Specifically, for example, in the seventh step S7, the average time that the entity device user is in the motion state every day is counted, and/or the number of times that the entity device user goes to the art stadium every month is counted, and/or the number of times that the entity device user goes to the shopping mall every month is counted, as the avatar design data of the user to which the NFT virtual equipment belongs.
The physical shoes are sold in a key way when the virtual shoes are sold, and the actual wearing data of the associated physical shoes are used as character design parameters, so that the character design is more personalized, and the meta-universe virtual image can reflect the personal individuality of the actual user more accurately.
For example, the average time that a physical device user is in motion each day may be counted to determine if the user is good at sports; if the average time that the physical device user is in motion each day is above a predetermined threshold, the avatar of the user to which the NFT virtual equipment belongs is designed to be more robust.
For another example, the number of times the physical device user goes to an art venue, such as a museum and an art venue, per month may be counted to determine if the user prefers literature; if the number of times the physical device user goes to the museum and the artist is higher than a predetermined number of times per month, the avatar of the user to which the NFT virtual equipment belongs is designed to be more artistic.
For another example, the number of times that the entity device user goes to the shopping mall per month may be counted to determine whether the user likes to pursue the popular trend; if the number of times the physical device user goes to the shopping mall per month is above a predetermined number of times threshold, the avatar of the user to which the NFT virtual equipment belongs is designed to be more fashionable.
Further preferably, when one user owns multiple combinations of NFT virtual equipment and its entity devices, the respective entity device data may be combined as avatar design data of the user to which the NFT virtual equipment belongs.
Specifically, a set of information related to the entity device in the additional attribute data of all NFT virtual equipments under the same user may be counted as avatar design data of the user to which the NFT virtual equipment belongs. For example, duplicate information in information related to the entity devices in the additional attribute data of all NFT virtual devices is removed, so that entity devices corresponding to a plurality of NFT virtual devices are removed from being worn by a user at the same time. Specifically, sometimes the user wears the respective physical shoes and physical clothes of the NFT virtual equipment at the same time, thereby resulting in repeated information, which needs to be removed to avoid errors in the visual design.
Thus, combining the data of each entity device as the avatar design data of the user to which the NFT virtual equipment belongs can enable the meta-universe avatar to more accurately reflect the individual personality of the actual user.
In addition, the virtual image design data of the user to which the NFT virtual equipment belongs is combined with the data of each entity device, and the expectation that the user perfects the personalized design of the virtual image can be utilized to improve the frequency of the user using the NFT virtual equipment and the entity device thereof, and improve the viscosity and the loyalty of the user to the product; in other words, sales of physical devices can be facilitated with NFT virtual equipment.
Furthermore, in a further preferred embodiment, the chip has a motion sensing unit, such as a gyro, for detecting the motion of the physical device, and the motion data of the physical device sensed by the motion sensing unit is used as avatar design data of the user to whom the NFT virtual equipment belongs.
At this time, for example, the NFT virtual equipment is professional sports equipment for a specific sports item, such as hiking shoes, dance shoes, swimwear, swimming caps, boxing gloves, etc., so that, according to the sports data of the physical equipment corresponding to the NFT virtual equipment for the professional sports equipment for the specific sports item, the data of the user performing the sports related to the specific sports item (such as the specific sports item sports duration corresponding to the physical equipment use time, the specific sports item sports frequency corresponding to the physical equipment use frequency) can be determined, thereby further utilizing the sports data related to the specific sports item as the character design parameter.
For example, if the value of the athletic data related to a particular athletic event is above a preset threshold, the physical characteristic data and/or muscle characteristics (characteristics of whether or not there are muscles particularly developed with strength, etc.) of the athlete for the particular athletic event are utilized as character design parameters.
Furthermore, unless specifically stated otherwise, the terms "first," "second," "third," and the like in the description herein, are used for distinguishing between various components, elements, steps, etc. in the description, and not for indicating a logical or sequential relationship between various components, elements, steps, etc.
It will be appreciated that although the invention has been described above in terms of preferred embodiments, the above embodiments are not intended to limit the invention. Many possible variations and modifications of the disclosed technology can be made by anyone skilled in the art without departing from the scope of the technology, or the technology can be modified to be equivalent. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present invention still fall within the scope of the technical solution of the present invention.
Claims (10)
1. A meta-universe artificial intelligence virtual equipment data generation method, characterized by comprising:
a first step of: designing NFT virtual equipment aiming at metauniverse;
and a second step of: manufacturing a physical device based on the designed NFT virtual equipment, the physical device having the same appearance as the NFT virtual equipment; a chip is embedded in the entity equipment, and the chip is provided with a storage unit for storing a unique identification code corresponding to the designed NFT virtual equipment;
and a third step of: synchronously selling the designed NFT virtual equipment and the entity equipment manufactured correspondingly to the same user;
fourth step: the chip periodically updates the motion trail data of the entity device to the NFT virtual equipment of the design as additional attribute data of the NFT virtual equipment of the design, wherein the unique identification code is used for determining the NFT virtual equipment to be updated with the additional attribute data of the NFT virtual equipment when updating the additional attribute data of the NFT virtual equipment.
2. The meta-cosmic artificial intelligence virtual equipment data generation method according to claim 1, wherein the virtual equipment is a virtual wearable device and the chip has a GPS unit; and the GPS unit tracks the movement track data of the entity equipment and records the movement track data of the entity equipment to the storage unit.
3. The meta-cosmic artificial intelligence virtual equipment data generation method according to claim 1 or 2, wherein the additional attribute data of the designed NFT virtual equipment and the storage unit of the chip are both stored with identity information of the same user who purchased the NFT virtual equipment and related entity devices.
4. The meta-cosmic artificial intelligence virtual equipment data generation method according to claim 1 or 2, wherein the chip uses a blockchain technique to periodically update the motion trail data of the entity device to the designed NFT virtual equipment.
5. The meta-cosmic artificial intelligence virtual equipment data generation method according to claim 1 or 2, wherein the virtual wearable device includes, for example, virtual shoes, virtual clothes, virtual hats, and virtual gloves.
6. The meta-cosmic artificial intelligence virtual equipment data generation method according to claim 1 or 2, characterized in that the meta-cosmic artificial intelligence virtual equipment data generation method further includes:
fifth step: in the case that the same user who accepts the sale decides to discard the entity device, instructing the chip to update a signal notifying the discard of the entity device to the designed NFT virtual equipment as additional attribute data of the designed NFT virtual equipment;
sixth step: in the case that a signal notifying the rejection of the entity device is added to the additional attribute data of the NFT virtual equipment in the meta-universe, the additional attribute data of the NFT virtual equipment stops updating the information related to the entity device.
7. The meta-cosmic artificial intelligence virtual equipment data generation method according to claim 1 or 2, characterized in that the meta-cosmic artificial intelligence virtual equipment data generation method further includes: a method of designing a meta-universe avatar of an associated user based on data of an entity device to which the virtual equipment data is associated.
8. The meta-cosmic artificial intelligence virtual equipment data generation method according to claim 1 or 2, characterized in that the meta-cosmic artificial intelligence virtual equipment data generation method further includes:
seventh step: and taking information related to the entity equipment in the additional attribute data of the NFT virtual equipment as avatar design data of a user to which the NFT virtual equipment belongs.
9. The meta-space artificial intelligence virtual equipment data generation method according to claim 1 or 2, wherein the chip has a motion sensing unit for detecting a motion of the physical device, and the motion data of the physical device sensed by the motion sensing unit is used as avatar design data of a user to whom the NFT virtual equipment belongs.
10. The meta-cosmic artificial intelligence virtual equipment data generation method according to claim 1 or 2, wherein the NFT virtual equipment is professional sports equipment for a specific sports item.
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