CN115239435B - Flexible wearable equipment supply chain management system and method based on meta universe - Google Patents

Abstract

The invention discloses a flexible wearable equipment supply chain management system and a method thereof based on meta universe, wherein the system comprises the following steps: the meta-space platform virtual assembly module, a provider end and a user end; the metauniverse platform virtual assembly module comprises: a memory storing a data processing program; the processor is configured to execute the data processing program to execute the meta-space platform virtual assembly module, the supplier side and the user side to respond interactively; the space limitation of the user and the supplier is broken through by using the method for managing the supply chain established by the metauniverse platform; scene type experience is improved to increase user purchasing experience, the free assembly mode increases the fit degree and practicality of the wearable device and the user, meanwhile, suppliers effectively collect user individual data through the metauniverse platform, revise the user wearable device according to actual requirements, and effectively promote the fit degree of the wearable device and the user.

Description

Flexible wearable equipment supply chain management system and method based on meta universe

Technical Field

The invention relates to the technical field of supply chain management of wearable equipment, in particular to a flexible wearable equipment supply chain management system and method based on meta universe.

Background

The wearable device is portable equipment which is directly worn on the body or integrated into wearable articles such as clothes and the like, and mainly can be divided into four major categories of hand wearing type, ear wearing type, body wearing type and foot wearing type. With the continuous development and innovative integration of technologies such as mobile communication, image technology and artificial intelligence, wearable equipment rapidly develops under the drive of global application and experience consumption, and becomes one of the fastest growing high-tech markets worldwide. The existing supply chain management content of the wearable equipment mainly comprises material circulation, commercial circulation, information circulation and fund circulation, wherein compared with other industrial products, the operation flow of the material circulation of the wearable equipment is more traditional, the operation procedure is faster in updating iteration speed due to the wearable equipment, and according to market conditions, the corresponding requirement change is more, and flexible customization becomes a trend.

CN202111346930.9 discloses a meta-cosmic security system based on NFR and interlink networks, comprising: a interlink network providing uplink functions and security services for NFR and meta universe; NFR, NFR is built on the interlink network, for authentication and transaction protocol, the meta-cosmic security system performs registration of people and identification and transaction of articles through NFR; the meta-universe supervisory mechanism is used for conducting supervision, registration of the meta-universe and user registration under the meta-universe all need to be confirmed by the meta-universe supervisory mechanism, all interactive data in the meta-universe need to be subjected to uplink operation, evidence is reserved, and the interactive data cannot be changed; the meta-universe system is connected with the meta-universe supervisory mechanism and consists of a plurality of meta-universe subsystems; each metauniverse subsystem is connected to one or more users. CN202210258794.6 discloses a system and method for using two-dimension code label as meta-cosmic ecological entrance, belonging to meta-cosmic ecological field; the system comprises a physical product, MOLYCOD two-dimensional codes, an MR mixed reality terminal product, MR mixed reality scanning recognition software, meta space data information processing software, a cloud server in an Internet environment and a blockchain network computing power storage platform in a blockchain environment; the MOLYCOD two-dimensional code is integrated into multiple scenes and multiple applications, so that real world physical products can be conveniently and rapidly provided with functions such as metauniverse digital identities, and the MOLYCOD two-dimensional code is quickly and conveniently integrated into metauniverse 3D digital ecology at low cost. The real world physical product is a ticket and a bridge entering the meta-universe virtual world; the multidimensional metadata universe data contained in the MOLYCO two-dimensional code can support a cloud server in the Internet ecology and also can support the distributed decentralization computing power storage network ecology of the blockchain, and is compatible with the characteristics of an encrypted digital space and a non-encrypted digital space. The technical scheme disclosed by the invention can be quickly, conveniently and low-cost integrated into the metauniverse 3D digital ecology. The real world physical product is a ticket and a bridge for entering the meta-universe virtual world.

However, the whole flow of the system is unidirectional with the traditional supply chain, and materials, information and funds are basically unidirectional, so that the error of information communication in a certain link from the design of a functional scheme to the marketing is easy to occur due to the limitation and distortion of the information. The main problems include: 1. the frequency of the demand report is high, the number of modification times is large, the sudden demand is frequent, the management workload is large, the demand is scattered, the purchasing process is complicated, and the verification period of the real object is long; 2. purchasing a microphone serving as a communication between a market client and a provider results in a plurality of invalid communication and high communication cost; 3. the source searching surface managed by the supplier is narrow, the communication frequency is high, the efficiency is low, and the offline cooperative workload is large.

Disclosure of Invention

In order to solve the technical problems, the invention provides a flexible wearable equipment supply chain management system and a flexible wearable equipment supply chain management method based on metauniverse.

The invention adopts the following technical scheme: a meta-universe-based flexible wearable device supply chain management system, comprising:

the meta-space platform virtual assembly module, a provider end and a user end;

the metauniverse platform virtual assembly module comprises:

a memory storing a data processing program;

the processor is configured to execute the data processing program to execute the meta-space platform virtual assembly module, the supplier side and the user side to respond interactively;

the meta-space platform virtual assembly module is used for receiving the virtual components uploaded by the modeling of the provider end and storing the virtual components in the memory, and the classification module classifies the virtual components so as to facilitate the retrieval of users; the user obtains virtual components required by classification retrieval, and assembles virtual wearable equipment of required functional components according to the self requirement; the user automatically generates an order link after finishing the assembly of the virtual wearable device and pays, and the metauniverse platform virtual assembly module transmits the order link to a provider end production line for custom production or stock selection and matching; comprising the following steps: a scene module, a supply module, a purchasing module and an after-sales module;

the vendor end is used for logging in the meta-cosmic platform virtual assembly module by the vendor, creating basic information of the vendor, modeling and uploading components to the meta-cosmic platform virtual assembly module by the vendor, receiving virtual wearable equipment order links assembled by users by the meta-cosmic platform virtual assembly module, acquiring virtual components and functional components formed by the virtual wearable equipment assembled by the users in the order links, customizing production of the wearable equipment by corresponding production lines, or selecting corresponding matched wearable equipment by the users based on stock selection, and distributing the wearable equipment to the users through logistics.

The user terminal is used for establishing user basic information by a user logging in the meta-universe platform virtual assembly module, entering the meta-universe platform virtual assembly module, searching required virtual components and functional components through the classification module according to own requirements, and automatically generating order links by payment after the virtual wearable equipment is assembled.

Further, the meta space virtual assembly module includes:

the scene module is used for enabling a user to enter the virtual assembly module of the meta-space platform to select a scene presented when the user selects a required virtual component and a function component, and the scene is synchronously presented at the user side;

the purchasing module is used for inputting basic information of a user, wherein the user inputs personal names, receiving addresses, payment accounts and contact ways, and the meta-universe platform virtual assembly module invokes the information on order links assembled by the user into virtual wearable equipment;

the supply module is used for inputting basic information of a supplier, wherein the supplier inputs the basic information including the name, address, contact information, payment account and introduction of the supplier, and the metauniverse platform virtual assembly module invokes the basic information on order links assembled into the virtual wearable device by a user;

the order link comprises virtual components, functional components and payment information which are contained in the virtual wearable device completed by the user, basic information for calling the purchasing module and the supplying module, and evaluation information of the wearable device received by the supplier through logistics distribution information and the user.

The after-sales module is used for acquiring order link execution information and logistics distribution information of the supply module, attaching the execution information to the order link and processing progress violations of the execution information according to rules; and acquiring evaluation information of the wearable equipment received by the user, processing the evaluation information according to the rule, and attaching the evaluation information to the order link.

Furthermore, the meta-space virtual assembly module, the supplier side and the user side are also provided with communication modules for interactive response among the meta-space virtual assembly module, the supplier side and the user side.

Furthermore, the user side comprises a VR head display and AR glasses, the user logs in the meta-universe virtual assembly module to acquire an interface of the user to be presented in the real world of the user, and meanwhile, the user assembles the virtual components in the meta-universe virtual assembly module through the functional components required by the user through gestures, pupils and voices, and the command modes comprise selection, deletion, movement, determination, scaling and storage.

Further, the provider end models the virtual components in the uploading meta-universe virtual assembly module, and can edit the virtual components, wherein the editing comprises shape, size, material, price and quantity parameters.

Further, the provider end establishes optional functional components for the uploaded virtual components, wherein the functional components comprise blood pressure, blood oxygen, body temperature and gesture recognition.

A flexible wearable equipment supply chain management method based on meta universe comprises the following steps:

1) The supplier logs in the meta-universe platform virtual assembly module, and enters the supply module to create basic information of the supplier;

2) The vendor models and uploads the components to a virtual assembly module of the metauniverse platform, and a classification module of the virtual assembly module of the metauniverse platform classifies the virtual components;

3) The user logs in the meta-universe platform virtual assembly module, enters the purchasing module and creates user basic information;

4) The user searches the required virtual components and functional components through the classification module according to the self requirements, and assembles the virtual wearable equipment on the virtual components and the functional components to complete the virtual wearable equipment; the user pays for, and an order link is automatically generated;

5) The meta-space platform virtual assembly sends an order link to a provider side, and the provider obtains a production line corresponding to the virtual wearable equipment assembled by a user in the order to customize the wearable equipment, or selects corresponding wearable equipment matched with the user based on stock selection;

6) And the provider side distributes the wearable equipment to the user through logistics, and the user receives the wearable equipment or selects to evaluate the transaction in order links.

Further, the specific method for assembling the virtual wearable device comprises the following steps:

the user searches through the component universe platform virtual assembly module classification module, selects a required virtual component suitable for the user, and the selected virtual component is synchronously displayed in the real field of view of the user side;

the user matches the selected virtual components with the required functional components including blood pressure, blood oxygen, body temperature and gesture recognition;

and selecting, deleting or replacing the matched functional components by a user, and finally storing the selected virtual components and functional components to generate the assembled virtual wearable device.

The invention has the beneficial effects that:

1. the meta-universe platform fundamentally changes the mode of the traditional supply chain management, breaks through time and space limitation, market clients carry out real-time experience of wearable equipment through the platform, dredges all links from the design of a product functional scheme to marketing, reduces verification period and transaction cost, and improves the docking efficiency of product research and development and market; the virtual experience of the customer on the virtual clone reduces the return rate of the product and improves the actual yield of the order.

2. The digital twin technology is utilized to construct a virtual clone body from research and development design to terminal sales, through visual and verification analysis of elements of the virtual clone body, customization is carried out from the virtual clone body, flexible assembly and online quick verification are carried out, the cost of research and development, management, operation and the like is reduced, flexible customization from research and development to production is realized, the efficiency of a supply chain is improved, the reliability is high, the transaction cost is low, the time cost is low, and the transaction efficiency is higher.

3. The space limitation of users, suppliers and logistics is broken through by using the method for managing the supply chain established by the metauniverse platform; scene type experience is improved to increase user purchasing experience, the free assembly mode increases the fit degree and practicality of the wearable device and the user, meanwhile, suppliers effectively collect user individual data through the metauniverse platform, revise the user wearable device according to actual requirements, and effectively promote the fit degree of the wearable device and the user.

Drawings

FIG. 1 is a schematic diagram of a flexible wearable device supply chain management system chain structure based on the meta-universe;

FIG. 2 is a block diagram of a flexible wearable device supply chain management system based on the meta-universe;

fig. 3 is a schematic diagram of a flexible wearable device supply chain management method based on meta-universe.

Detailed Description

In order that the invention may be readily understood, a more particular description thereof will be rendered by reference to specific embodiments that are illustrated in the appended drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description presented herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Embodiment 1 referring to fig. 1 and 2, a flexible wearable device supply chain management system based on meta-universe includes: the meta-space platform virtual assembly module, a provider end and a user end; the metauniverse platform virtual assembly module comprises: a memory storing a data processing program; the processor is configured to execute the data processing program to execute the meta-space platform virtual assembly module, the supplier side and the user side to respond interactively;

the meta-space platform virtual assembly module is used for receiving the virtual components uploaded by the modeling of the provider end and storing the virtual components in the memory, and the classification module classifies the virtual components so as to facilitate the retrieval of users; the user obtains virtual components required by classification retrieval, and assembles virtual wearable equipment of required functional components according to the self requirement; the user automatically generates an order link after finishing the assembly of the virtual wearable device and pays, and the metauniverse platform virtual assembly module transmits the order link to a provider end production line for custom production or stock selection and matching; comprising the following steps: a scene module, a supply module, a purchasing module and an after-sales module;

the vendor end is used for logging in the meta-cosmic platform virtual assembly module by the vendor, creating basic information of the vendor, modeling and uploading components to the meta-cosmic platform virtual assembly module by the vendor, receiving virtual wearable equipment order links assembled by users by the meta-cosmic platform virtual assembly module, acquiring virtual components and functional components formed by the virtual wearable equipment assembled by the users in the order links, customizing production of the wearable equipment by corresponding production lines, or selecting corresponding matched wearable equipment by the users based on stock selection, and distributing the wearable equipment to the users through logistics.

The user terminal is used for establishing user basic information by a user logging in the meta-universe platform virtual assembly module, entering the meta-universe platform virtual assembly module, searching required virtual components and functional components through the classification module according to own requirements, and automatically generating order links by payment after the virtual wearable equipment is assembled.

Embodiment 2 referring to fig. 1 and 2, a flexible wearable device supply chain management system based on meta-universe includes: the meta-space platform virtual assembly module, a provider end and a user end; the metauniverse platform virtual assembly module comprises: a memory storing a data processing program; the processor is configured to execute the data processing program to execute the meta-space platform virtual assembly module, the supplier side and the user side to respond interactively;

the meta-space platform virtual assembly module is used for receiving the virtual components uploaded by the modeling of the provider end and storing the virtual components in the memory, and the classification module classifies the virtual components so as to facilitate the retrieval of users; the user obtains virtual components required by classification retrieval, and assembles virtual wearable equipment of required functional components according to the self requirement; the user automatically generates an order link after finishing the assembly of the virtual wearable device and pays, and the metauniverse platform virtual assembly module transmits the order link to a provider end production line for custom production or stock selection and matching; comprising the following steps: a scene module, a supply module, a purchasing module and an after-sales module;

the meta space virtual assembly module comprises:

the scene module is used for enabling a user to enter the virtual assembly module of the meta-space platform to select a scene presented when the user selects a required virtual component and a function component, and the scene is synchronously presented at the user side;

the purchasing module is used for inputting basic information of a user, wherein the user inputs personal names, receiving addresses, payment accounts and contact ways, and the meta-universe platform virtual assembly module invokes the information on order links assembled by the user into virtual wearable equipment;

the supply module is used for inputting basic information of a supplier, wherein the supplier inputs the basic information including the name, address, contact information, payment account and introduction of the supplier, and the metauniverse platform virtual assembly module invokes the basic information on order links assembled into the virtual wearable device by a user;

the order link comprises virtual components, functional components and payment information which are contained in the virtual wearable device completed by the user, basic information for calling the purchasing module and the supplying module, and evaluation information of the wearable device received by the supplier through logistics distribution information and the user.

The after-sales module is used for acquiring order link execution information and logistics distribution information of the supply module, attaching the execution information to the order link and processing progress violations of the execution information according to rules; and acquiring evaluation information of the wearable equipment received by the user, processing the evaluation information according to the rule, and attaching the evaluation information to the order link.

The vendor end is used for logging in the meta-cosmic platform virtual assembly module by the vendor, creating basic information of the vendor, modeling and uploading components to the meta-cosmic platform virtual assembly module by the vendor, receiving virtual wearable equipment order links assembled by users by the meta-cosmic platform virtual assembly module, acquiring virtual components and functional components formed by the virtual wearable equipment assembled by the users in the order links, customizing production of the wearable equipment by corresponding production lines, or selecting corresponding matched wearable equipment by the users based on stock selection, and distributing the wearable equipment to the users through logistics.

The user terminal is used for establishing user basic information by a user logging in the meta-universe platform virtual assembly module, entering the meta-universe platform virtual assembly module, searching required virtual components and functional components through the classification module according to own requirements, and automatically generating order links by payment after the virtual wearable equipment is assembled.

Embodiment 3 referring to fig. 1 and 2, a flexible wearable device supply chain management system based on meta-universe includes: the meta-space platform virtual assembly module, a provider end and a user end; the metauniverse platform virtual assembly module comprises: a memory storing a data processing program; the processor is configured to execute the data processing program to execute the meta-space platform virtual assembly module, the supplier side and the user side to respond interactively; the meta-space virtual assembly module, the supplier side and the user side are also provided with communication modules for interactive response among the meta-space virtual assembly module, the supplier side and the user side.

The meta-space platform virtual assembly module is used for receiving the virtual components uploaded by the modeling of the provider end and storing the virtual components in the memory, and the classification module classifies the virtual components so as to facilitate the retrieval of users; the user obtains virtual components required by classification retrieval, and assembles virtual wearable equipment of required functional components according to the self requirement; the user automatically generates an order link after finishing the assembly of the virtual wearable device and pays, and the metauniverse platform virtual assembly module transmits the order link to a provider end production line for custom production or stock selection and matching; comprising the following steps: a scene module, a supply module, a purchasing module and an after-sales module;

the vendor end is used for logging in the meta-cosmic platform virtual assembly module by the vendor, creating basic information of the vendor, modeling and uploading components to the meta-cosmic platform virtual assembly module by the vendor, receiving virtual wearable equipment order links assembled by users by the meta-cosmic platform virtual assembly module, acquiring virtual components and functional components formed by the virtual wearable equipment assembled by the users in the order links, customizing production of the wearable equipment by corresponding production lines, or selecting corresponding matched wearable equipment by the users based on stock selection, and distributing the wearable equipment to the users through logistics.

The user terminal is used for establishing user basic information by a user logging in the meta-universe platform virtual assembly module, entering the meta-universe platform virtual assembly module, searching required virtual components and functional components through the classification module according to own requirements, and automatically generating order links by payment after the virtual wearable equipment is assembled.

Embodiment 4 referring to fig. 1 and 2, a flexible wearable device supply chain management system based on meta-universe includes: the meta-space platform virtual assembly module, a provider end and a user end; the metauniverse platform virtual assembly module comprises: a memory storing a data processing program; the processor is configured to execute the data processing program to execute the meta-space platform virtual assembly module, the supplier side and the user side to respond interactively;

the meta-space platform virtual assembly module is used for receiving the virtual components uploaded by the modeling of the provider end and storing the virtual components in the memory, and the classification module classifies the virtual components so as to facilitate the retrieval of users; the user obtains virtual components required by classification retrieval, and assembles virtual wearable equipment of required functional components according to the self requirement; the user automatically generates an order link after finishing the assembly of the virtual wearable device and pays, and the metauniverse platform virtual assembly module transmits the order link to a provider end production line for custom production or stock selection and matching;

the vendor end is used for logging in the meta-cosmic platform virtual assembly module by the vendor, creating basic information of the vendor, modeling and uploading components to the meta-cosmic platform virtual assembly module by the vendor, receiving virtual wearable equipment order links assembled by users by the meta-cosmic platform virtual assembly module, acquiring virtual components and functional components formed by the virtual wearable equipment assembled by the users in the order links, customizing production of the wearable equipment by corresponding production lines, or selecting corresponding matched wearable equipment by the users based on stock selection, and distributing the wearable equipment to the users through logistics. The supplier side models and uploads the virtual components in the meta-universe virtual assembly module, and can edit the virtual components, wherein the editing comprises shape, size, material, price and quantity parameters. The supplier establishes optional functional components for the uploaded virtual components, wherein the functional components comprise blood pressure, blood oxygen, body temperature and gesture recognition.

The user terminal is used for establishing user basic information by a user logging in the meta-universe platform virtual assembly module, entering the meta-universe platform virtual assembly module, searching required virtual components and functional components through the classification module according to own requirements, and automatically generating order links by payment after the virtual wearable equipment is assembled. The user side comprises a VR head display and AR glasses, the user logs in the meta space virtual assembly module to acquire an interface of the user to be presented in the real world of the user, and meanwhile, the user assembles the virtual components in the meta space virtual assembly module through the functional components required by the user through gestures, pupils and voices, and the command modes comprise selection, deletion, movement, determination, scaling and storage.

Embodiment 5 referring to fig. 3, a flexible wearable device supply chain management method based on meta-universe includes the following steps:

1) The supplier logs in the meta-universe platform virtual assembly module, and enters the supply module to create basic information of the supplier;

2) The vendor models and uploads the components to a virtual assembly module of the metauniverse platform, and a classification module of the virtual assembly module of the metauniverse platform classifies the virtual components;

3) The user logs in the meta-universe platform virtual assembly module, enters the purchasing module and creates user basic information;

4) The user searches the required virtual components and functional components through the classification module according to the self requirements, and assembles the virtual wearable equipment on the virtual components and the functional components to complete the virtual wearable equipment; the user pays for, and an order link is automatically generated;

5) The meta-space platform virtual assembly sends an order link to a provider side, and the provider obtains a production line corresponding to the virtual wearable equipment assembled by a user in the order to customize the wearable equipment, or selects corresponding wearable equipment matched with the user based on stock selection;

6) And the provider side distributes the wearable equipment to the user through logistics, and the user receives the wearable equipment or selects to evaluate the transaction in order links.

The specific method for assembling the virtual wearable equipment comprises the following steps:

the user searches through the component universe platform virtual assembly module classification module, selects a required virtual component suitable for the user, and the selected virtual component is synchronously displayed in the real field of view of the user side;

the user matches the selected virtual components with the required functional components including blood pressure, blood oxygen, body temperature and gesture recognition;

and selecting, deleting or replacing the matched functional components by a user, and finally storing the selected virtual components and functional components to generate the assembled virtual wearable device.

As shown in fig. 1, the virtual part is a virtual assembly module of a meta-space platform, which is uploaded by a provider side through modeling, a user side enters the virtual assembly module of the meta-space platform through a wearable device to assemble the virtual wearable device, the user assembles the virtual wearable device, payment is carried out to generate order information, the provider side acquires the order information, and the virtual wearable device is assembled according to the user in the order information; the real part is embodied in the user side and the provider side, and the provider side performs custom generation or stock selection according to the virtual wearable equipment in the order information corresponding to the production line, and distributes the virtual wearable equipment to the user through logistics; and through the virtual part and the real part, the meta-space platform virtual assembly module is used as a medium user to carry out interactive experience with the provider. The suppliers obtain the actual demand according to the metauniverse platform virtual assembly module, and adjust the production plan according to the demand type and the capacity of producing the corresponding virtual components by themselves.

Claims (6)

1. A meta-universe-based flexible wearable device supply chain management system, comprising:

the meta-space platform virtual assembly module, a provider end and a user end;

the metauniverse platform virtual assembly module comprises:

a memory storing a data processing program;

the processor is configured to execute the data processing program to execute the meta-space platform virtual assembly module, the supplier side and the user side to respond interactively;

the meta-space platform virtual assembly module is used for receiving the virtual components uploaded by the modeling of the provider end and storing the virtual components in the memory, and the classification module classifies the virtual components so as to facilitate the retrieval of users; the user obtains virtual components required by classification retrieval, and assembles virtual wearable equipment of required functional components according to the self requirement; the user automatically generates an order link after finishing the assembly of the virtual wearable device and pays, and the metauniverse platform virtual assembly module transmits the order link to a provider end production line for custom production or stock selection and matching; comprising the following steps: a scene module, a supply module, a purchasing module and an after-sales module;

the vendor end is used for logging in the metauniverse platform virtual assembly module by the vendor, creating basic information of the vendor, modeling and uploading components to the metauniverse platform virtual assembly module by the vendor, receiving virtual wearable equipment order links assembled by users by the metauniverse platform virtual assembly module, acquiring virtual components and functional components formed by the virtual wearable equipment assembled by the users in the order links, customizing production of the wearable equipment by corresponding production lines, or selecting corresponding matched wearable equipment by the users based on stock selection, and distributing the corresponding wearable equipment to the users through logistics;

the user terminal is used for establishing user basic information by a user logging-in meta-universe platform virtual assembly module, entering the meta-universe platform virtual assembly module, searching required virtual components and functional components through a classification module according to own requirements, and automatically generating order links by payment after the virtual wearable equipment is assembled;

the meta space virtual assembly module comprises:

the scene module is used for enabling a user to enter the virtual assembly module of the meta-space platform to select a scene presented when the user selects a required virtual component and a function component, and the scene is synchronously presented at the user side;

the purchasing module is used for inputting basic information of a user, wherein the user inputs personal names, receiving addresses, payment accounts and contact ways, and the meta-universe platform virtual assembly module invokes the information on order links assembled by the user into virtual wearable equipment;

the supply module is used for inputting basic information of a supplier, wherein the supplier inputs the basic information including the name, address, contact information, payment account and introduction of the supplier, and the metauniverse platform virtual assembly module invokes the basic information on order links assembled into the virtual wearable device by a user;

the order link comprises virtual components, functional components and payment information which are contained in the virtual wearable equipment completed by a user, basic information for calling a purchasing module and a supplying module, and evaluation information of the wearable equipment received by a supplier through logistics distribution information and the user;

the after-sales module is used for acquiring order link execution information and logistics distribution information of the supply module, attaching the execution information to the order link and processing progress violations of the execution information according to rules; acquiring evaluation information of wearable equipment received by a user, processing the evaluation information according to rules, and attaching the evaluation information to an order link;

the meta-space virtual assembly module, the supplier side and the user side are also provided with communication modules for interactive response among the meta-space virtual assembly module, the supplier side and the user side.

2. The flexible wearable device supply chain management system based on the metauniverse according to claim 1, wherein the user side comprises a VR head display and AR glasses, the user logs in the metauniverse virtual assembly module to obtain an interface thereof to be presented in the real world of the user, and meanwhile, the user assembles the virtual components in the metauniverse virtual assembly module through the gesture, pupil and voice to obtain functional components required by the user, and the command modes comprise selecting, deleting, moving, determining, zooming and storing.

3. The flexible wearable device supply chain management system based on metauniverse according to claim 1, wherein the vendor-side modeling uploads virtual components in the metauniverse virtual assembly module, and the virtual components can be edited, and the editing includes shape, size, material, price and quantity parameters.

4. The flexible wearable device supply chain management system based on meta-universe of claim 1, wherein the vendor end establishes optional functional components for the uploaded virtual components, and the functional components include blood pressure, blood oxygen, body temperature and gesture recognition.

5. A meta-universe-based flexible wearable device supply chain management method, which adopts the meta-universe-based flexible wearable device supply chain management system as claimed in claim 1, and is characterized by comprising the following steps:

1) The supplier logs in the meta-universe platform virtual assembly module, and enters the supply module to create basic information of the supplier;

2) The vendor models and uploads the components to a virtual assembly module of the metauniverse platform, and a classification module of the virtual assembly module of the metauniverse platform classifies the virtual components;

3) The user logs in the meta-universe platform virtual assembly module, enters the purchasing module and creates user basic information;

4) The user searches the required virtual components and functional components through the classification module according to the self requirements, and assembles the virtual wearable equipment on the virtual components and the functional components to complete the virtual wearable equipment; the user pays for, and an order link is automatically generated;

5) The meta-space platform virtual assembly sends an order link to a provider side, and the provider obtains a production line corresponding to the virtual wearable equipment assembled by a user in the order to customize the wearable equipment, or selects corresponding wearable equipment matched with the user based on stock selection;

6) And the provider side distributes the wearable equipment to the user through logistics, and the user receives the wearable equipment or selects to evaluate the transaction in order links.

6. The flexible wearable device supply chain management method based on metauniverse according to claim 5, characterized in that the specific method for assembling the virtual wearable device is as follows:

the user searches through the component universe platform virtual assembly module classification module, selects a required virtual component suitable for the user, and the selected virtual component is synchronously displayed in the real field of view of the user side;

the user matches the selected virtual components with the required functional components including blood pressure, blood oxygen, body temperature and gesture recognition;

and selecting, deleting or replacing the matched functional components by a user, and finally storing the selected virtual components and functional components to generate the assembled virtual wearable device.