CN115063210B - Resource intelligent matching method based on metasma and metasma system - Google Patents

Abstract

The invention discloses a resource intelligent matching method based on a metasma and a metasma system, wherein the method can automatically and accurately determine resources required by a resource demand end according to identification information and metasma images corresponding to the resource demand end, automatically screen metasma data of a resource providing end capable of providing the resources in a metasma resource pool, and send the metasma data to the resource demand end or display the metasma data in the metasma resource pool so that the resource demand end and the resource providing end can perform online visual interaction in an immersive manner, and the interaction efficiency and the accuracy between the resource demand end and the resource providing end are improved while the method is not limited by original entity places and the information is not gathered together, so that the resource demand end can efficiently and accurately obtain the required resources; and by selecting the matched resource providing end, the resource providing end can conveniently, efficiently and accurately convert the resource provided by the resource demand end from non-standardized to standardized resource in the meta universe resource pool, and the reliability of the resource can be improved.

Description

Resource intelligent matching method based on metasma and metasma system

Technical Field

The invention relates to the technical field of a metasma, in particular to a resource intelligent matching method based on the metasma and a metasma system.

Background

With the rapid development of the digitization technology, the digitization technology is applied to various industries, such as the agricultural product industry, and relevant data of agricultural products are digitized by using the digitization technology, so that the relevant data of the agricultural products are moved from off-line to on-line, and relevant information of the agricultural products can be checked by a demand side on-line, and then the demand side purchases the agricultural products.

However, practice finds that the existing digitization technology is only to simply digitize and display data in an actual scene to a demander, and still cannot enable the demander and a provider to effectively interact. Therefore, it is very important to provide a technical scheme for improving the interaction efficiency between multiple parties, such as a demander and a provider, so as to improve the efficiency of the demander for acquiring the required resources.

Disclosure of Invention

The invention provides a resource intelligent matching method based on a metasma and a metasma system, which can improve the interaction efficiency between a demand side, a provider side and other sides, thereby improving the efficiency of the demand side to efficiently obtain required resources.

In order to solve the technical problem, a first aspect of the present invention discloses a resource intelligent matching method based on a metasuniverse, which is applied to a metasuniverse system, wherein the metasuniverse system includes a metasuniverse resource source end, and the method includes:

the meta-universe resource end detects a meta-universe resource requirement triggered by a resource requirement end, and the meta-universe resource requirement comprises identification information corresponding to the resource requirement end;

the meta-universe resource end determines a meta-universe image of a trigger corresponding to the meta-universe resource end in a meta-universe resource pool of the meta-universe resource end according to the identification information corresponding to the resource demand end;

the meta-universe resource end determines a target resource required by the resource demand end according to the identification information corresponding to the resource demand end and the meta-universe portrait corresponding to the trigger;

the meta-universe resource source end selects a target resource provider matched with the target resource and meta-universe data of the target resource provider from all first resource providers of the meta-universe resource pool, and outputs the meta-universe data of the target resource provider to the trigger for the trigger to check and perform interactive operation with the target resource provider;

the meta-universe resource pool stores a plurality of meta-universe images and a plurality of meta-universe data of the first resource providing ends, and the meta-universe data of each first resource providing end comprises data corresponding to actual scene data of the first resource providing end one by one.

As an alternative implementation, in the first aspect of the present invention, the method further includes:

the metasource end receives an establishment request which is sent by at least one second resource providing end and aims at metasource data of the metasource end in the metasource pool;

for any of the second resource providers:

the meta universe resource end determines the resource data of the second resource provider according to the establishment request of the second resource provider, wherein the resource data of the second resource provider comprises identification information corresponding to the second resource provider and/or the resource provider data of the second resource provider;

the metastic universe resource source end screens a target metastic resource control end matched with the second resource providing end from the metastic universe resource control ends according to the resource data of the second resource providing end and the resource control data of each metastic universe resource control end in the metasuniverse resource pool, and sends a check prompt to the target metasuniverse resource control end, wherein the check prompt comprises the resource data of the second resource providing end and is used for prompting the target metasuniverse resource control end to check the resource data of the second resource providing end, and each metasuniverse resource control end has a unique corresponding actual resource control end;

when detecting that the resource data sent by the target metasource resource control terminal and used for representing the second resource provider passes verification, the metasource resource terminal determines actual scene data of the second resource provider, and generates metasource data corresponding to the actual scene data of the second resource provider one by one in the metasource pool according to the actual scene data of the second resource provider and the resource data of the second resource provider, wherein all the first resource providers include all the second resource providers.

As an optional implementation manner, in the first aspect of the present invention, the generating, by the metasource side, metasource data corresponding to actual scene data of the second resource provider one to one in the metasource pool according to actual scene data of the second resource provider and resource data of the second resource provider includes:

the meta-universe resource end performs sub-scene division on actual scene data of the second resource providing end according to a scene function division mode to obtain a plurality of sub-actual scene data, and determines the resource type provided by the second resource providing end according to the resource data of the second resource providing end;

the meta-universe resource end establishes a three-dimensional model matched with the sub-actual scene data according to the resource type corresponding to the second resource provider, the sub-actual scene data and the function of the sub-actual scene data;

the meta-universe resource end determines the color condition of each piece of sub-actual scene data, and renders the three-dimensional model of the sub-actual scene data based on the color condition of each piece of sub-actual scene data to obtain a rendered three-dimensional model;

and the meta-universe resource end determines the position of the second resource provider in the meta-universe resource pool according to the resource type provided by the second resource provider, and generates the meta-universe data corresponding to the actual scene data of the second resource provider one by one according to the rendered three-dimensional model corresponding to each piece of sub-actual scene data, the position corresponding to the second resource provider and the resource data of the second resource provider.

As an optional implementation manner, in the first aspect of the present invention, the target resource includes a plurality of sub-target resources, each of the sub-target resources has at least one corresponding sub-resource provider, and the target resource provider includes all the sub-resource providers;

and, the method further comprises:

the metaclass resource terminal determines the resource type of each sub-target resource and the requirement sequence of the sub-target resource according to the identification information corresponding to the resource requirement terminal;

the metaclass resource terminal determines the output sequencing of metaclass data of all the sub-resource providing terminals corresponding to the sub-target resources according to the resource type and the requirement sequencing of each sub-target resource;

wherein the metasequoiy resource side executes outputting the metasequoiy data of the target resource provider to the trigger for the trigger to view and execute interactive operation with the target resource provider, including:

and the metastic resource source end sequentially executes and outputs metastic data of all the sub-resource providing ends corresponding to each sub-target resource to the trigger according to the output sequence corresponding to all the sub-target resources, so that the trigger can check the metastic data and execute interactive operation with all the sub-resource providing ends of the sub-target resources through the resource demand end, wherein the interactive operation corresponding to each sub-target resource comprises that the resource demand end detects that the trigger screens required sub-resource providing ends from all the sub-resource providing ends corresponding to the sub-target resources and/or controls metastic pictures corresponding to the trigger to be in the metastic resource pool, and screens required sub-resource providing ends from all the sub-resource providing ends corresponding to the sub-target resources.

The second aspect of the present invention discloses a metasystem, which includes a metasource side, the metasource side including:

the detection module is used for detecting a meta-universe resource requirement triggered by a resource requirement end, wherein the meta-universe resource requirement comprises identification information corresponding to the resource requirement end;

the determining module is used for determining the meta-universe portrait of the trigger corresponding to the meta-universe resource requirement in the meta-universe resource pool of the meta-universe resource source end according to the identification information corresponding to the resource requirement end;

the determining module is further configured to determine a target resource required by the resource demand end according to the identification information corresponding to the resource demand end and the meta-space portrait corresponding to the trigger;

the selecting module is used for selecting a target resource provider matched with the target resource and the meta-universe data of the target resource provider from all first resource providers of the meta-universe resource pool;

the execution module is used for executing the output of the meta-universe data of the target resource providing end to the trigger, so that the trigger can view the meta-universe data and perform interactive operation with the target resource providing end;

the meta-universe resource pool stores a plurality of meta-universe images and a plurality of meta-universe data of the first resource providing ends, and the meta-universe data of each first resource providing end comprises data corresponding to actual scene data of the first resource providing end one by one.

As an optional implementation manner, in the second aspect of the present invention, the metastic resource source further includes:

the system comprises a first communication module, a second communication module and a third communication module, wherein the first communication module is used for receiving an establishment request which is sent by at least one second resource provider and aims at the meta-universe data of the meta-universe resource pool;

for any of the second resource providers:

the determining module is further configured to determine resource data of the second resource provider according to the establishment request of the second resource provider, where the resource data of the second resource provider includes identification information corresponding to the second resource provider and/or resource providing data of the second resource provider;

the selecting module is further configured to screen a target metasource resource control end matched with the second resource providing end from the metasource resource control ends according to the resource data of the second resource providing end and the resource control data of each metasource resource control end of the metasource resource control ends in the metasource resource pool;

the first communication module is further configured to send a verification prompt to the target meta-cosmic resource management and control end, where the verification prompt includes resource data of the second resource provider, and the verification prompt is used to prompt the target meta-cosmic resource management and control end to verify the resource data of the second resource provider, where each meta-cosmic resource management and control end has a unique corresponding actual resource management and control end;

the determining module is further configured to determine actual scene data of the second resource provider when it is detected that the resource data sent by the target meta-cosmic resource management and control end and used for representing the second resource provider passes verification;

and a generating module, configured to generate, in the metaspace resource pool, metaspace data that corresponds to the actual scene data of the second resource provider one to one according to the actual scene data of the second resource provider and the resource data of the second resource provider, where all the first resource providers include all the second resource providers.

As an optional implementation manner, in the second aspect of the present invention, a specific manner of generating, in the metasource pool, metasource data that corresponds one-to-one to actual scene data of the second resource provider according to actual scene data of the second resource provider and resource data of the second resource provider by the generation module includes:

performing sub-scene division on the actual scene data of the second resource provider according to a scene function division mode to obtain a plurality of sub-actual scene data, and determining the resource type provided by the second resource provider according to the resource data of the second resource provider;

establishing a three-dimensional model matched with the sub-actual scene data according to the resource type corresponding to the second resource provider, the sub-actual scene data and the function of the sub-actual scene data;

determining the color condition of each piece of sub-actual scene data, and rendering the three-dimensional model of the sub-actual scene data based on the color condition of each piece of sub-actual scene data to obtain a rendered three-dimensional model;

and determining the position of the second resource provider in the metasequoiy resource pool according to the resource type provided by the second resource provider, and generating metasequoiy data corresponding to the actual scene data of the second resource provider one to one according to the rendered three-dimensional model corresponding to each piece of sub-actual scene data, the position corresponding to the second resource provider and the resource data of the second resource provider.

As an optional implementation manner, in the second aspect of the present invention, the target resource includes a plurality of sub target resources, each of the sub target resources has at least one corresponding sub resource provider, and the target resource provider includes all the sub resource providers;

the determining module is further configured to determine a resource type of each sub-target resource and a requirement sequence of the sub-target resource according to the identification information corresponding to the resource demand end, and determine an output sequence of the meta-cosmic data of all the sub-resource providers corresponding to the sub-target resource according to the resource type and the requirement sequence of each sub-target resource;

the specific way that the execution module executes to output the meta-universe data of the target resource provider to the trigger for the trigger to view and execute the interactive operation with the target resource provider includes:

and sequentially executing the output of the meta-universe data of all the sub-resource providers corresponding to each sub-target resource to the trigger according to the output sequence corresponding to all the sub-target resources, so that the trigger can view the meta-universe data and execute interactive operation with all the sub-resource providers of the sub-target resources through the resource demand terminal, wherein the interactive operation corresponding to each sub-target resource comprises the steps that the resource demand terminal detects that the trigger screens required sub-resource providers from all the sub-resource providers corresponding to the sub-target resources and/or controls the meta-universe image corresponding to the trigger in the meta-universe resource pool, and screens required sub-resource providers from all the sub-resource providers corresponding to the sub-target resources.

The third aspect of the present invention discloses a metastic resource end, which includes:

a memory storing executable program code;

a processor coupled with the memory;

the processor calls the executable program code stored in the memory to execute part or all of the steps of any resource intelligent matching method based on the metasequestria disclosed by the first aspect of the invention.

In a fourth aspect, the present invention discloses a computer storage medium, which stores computer instructions, and when the computer instructions are called, the computer instructions are used to execute part or all of the steps in any of the intelligent resource matching methods based on the metastic universe disclosed in the first aspect of the present invention.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

in the embodiment of the invention, a meta-universe resource end detects a meta-universe resource requirement triggered by a resource requirement end, wherein the meta-universe resource requirement comprises identification information corresponding to the resource requirement end; the meta-universe resource end determines a meta-universe image of a trigger corresponding to the meta-universe resource requirement in a meta-universe resource pool of the meta-universe resource end according to the identification information corresponding to the resource requirement end; the source end of the resource in the meta universe determines a target resource required by the resource demand end according to the identification information corresponding to the resource demand end and the meta universe image corresponding to the trigger; the meta-universe resource source end selects a target resource providing end matched with the target resource and meta-universe data of the target resource providing end from all resource providing ends of the meta-universe resource pool, outputs the meta-universe data of the target resource providing end to a trigger, and allows the trigger to check and execute interactive operation with the target resource providing end; the meta-universe resource pool stores a plurality of meta-universe images and meta-universe data of a plurality of resource providing ends, and the meta-universe data of each resource providing end comprises data corresponding to actual scene data of the resource providing end one by one. Therefore, the resource required by the resource demand end can be accurately determined according to the identification information and the meta-universe image corresponding to the resource demand end, the meta-universe data of the resource providing end capable of providing the resource can be automatically screened in the meta-universe resource pool and sent to the resource demand end, or the meta-universe data of the resource providing end capable of providing the resource can be displayed in the meta-universe resource pool, so that online visual interaction between the resource demand end and the resource providing end can be conveniently carried out in an immersion mode, the interaction efficiency and the accuracy between the resource demand end and the resource providing end are improved while the influence of an original entity place and information gathering are not limited, and the resource demand end can conveniently and efficiently and accurately obtain the required resource; and by selecting the matched resource providing end, the resource providing end can conveniently, efficiently and accurately convert the resource provided by the resource demand end from non-standardized to standardized resource in the meta universe resource pool, and the reliability of the resource can be improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic flowchart of an intelligent resource matching method based on a metasma according to an embodiment of the present invention;

FIG. 2 is a schematic flowchart of another resource intelligent matching method based on the metasma according to the embodiment of the present invention;

FIG. 3 is a schematic flow chart of a source end of the meta universe resource according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of another exemplary meta-space resource source according to the present invention;

FIG. 5 is a schematic structural diagram of another source end of the meta universe disclosed in the embodiment of the present invention.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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 invention.

The terms "first," "second," and the like in the description and claims of the present invention and in the above-described drawings are used for distinguishing between different objects and not necessarily for describing a particular sequential or chronological order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, apparatus, article, or article that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or article.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein may be combined with other embodiments.

The invention discloses a resource intelligent matching method based on a metasma and a metasma system, which can automatically and accurately determine resources required by a resource demand end according to identification information and metasma images corresponding to the resource demand end, automatically screen metasma data of a resource providing end capable of providing the resources in a metasma resource pool, send the metasma data to the resource demand end or display the metasma data in the metasma resource pool, so that the resource demand end and the resource providing end can conveniently perform online visual interaction in an immersion mode, are not limited by original entity places or information gathering influence, and improve the interaction efficiency and accuracy between the resource demand end and the resource providing end, so that the resource demand end can conveniently and accurately obtain the required resources; and by selecting the matched resource providing end, the resource providing end can conveniently, efficiently and accurately convert the resource provided by the resource demand end from non-standardized to standardized resource in the meta universe resource pool, and the reliability of the resource can be improved. The following are detailed descriptions of the respective components.

Example one

Referring to fig. 1, fig. 1 is a schematic flowchart of an intelligent resource matching method based on a metasphere according to an embodiment of the present invention. The method described in fig. 1 may be applied to a metasystem, where the metasystem includes a metastic resource source terminal, a resource demand terminal, a plurality of resource providing terminals, and a plurality of resource control terminals. As shown in fig. 1, the resource intelligent matching method based on the metasma may include the following operations:

101. and the meta-universe resource end detects the meta-universe resource requirement triggered by the resource requirement end, and the meta-universe resource requirement comprises identification information corresponding to the resource requirement end.

In the embodiment of the invention, the identification information corresponding to the resource demand end comprises one or more of an equipment identification of the resource demand end, an identity identification of a trigger of the meta-space resource demand, an identification of the required resource and a meta-space portrait identification of the trigger. Wherein the required resources comprise commodity resources and/or non-commodity resources. Thus, by providing various kinds of identification information, the determination accuracy of the meta cosmic image of the trigger is improved, and the determination accuracy of the required resources is improved. The resource demand end comprises a trigger glasses wearing module, or a trigger glasses wearing module and a trigger body sensing module.

In the embodiment of the invention, when a requirement of the meta-universe resource is detected, if the requirement end of the resource or a trigger of the requirement of the meta-universe resource does not have the meta-universe image in the meta-universe resource pool, the requirement end of the resource collects information corresponding to the trigger, establishes the meta-universe image of the trigger according to the information and uploads the meta-universe image to the resource end of the meta-universe, or uploads the information to the resource end of the meta-universe, and the resource end of the meta-universe establishes the meta-universe image for the trigger according to the information, wherein the information comprises but is not limited to one or more of an identity of the trigger, an equipment identity of the requirement end of the resource and three-dimensional information of the trigger. Therefore, the more content contained in the information is, the more accurate the information is, the more beneficial the accuracy of establishing the meta-space image of the trigger is to be improved.

102. And the meta-universe resource end determines the meta-universe image of the trigger corresponding to the meta-universe resource end in the meta-universe resource pool of the meta-universe resource end according to the identification information corresponding to the resource demand end.

103. And the meta-universe resource end determines the target resource required by the resource demand end according to the identification information corresponding to the resource demand end and the meta-universe image corresponding to the trigger.

104. The metastic resource source end selects a target resource provider end matched with the target resource from all first resource provider ends of the metastic resource pool and metastic data of the target resource provider end.

105. And the meta-universe resource end executes the output of the meta-universe data of the target resource providing end to the trigger for the trigger to check and execute interactive operation with the target resource providing end.

In the embodiment of the invention, a plurality of meta universe images and meta universe data of a plurality of first resource providing ends are stored in the meta universe resource pool, and the meta universe data of each first resource providing end comprises data corresponding to actual scene data of the first resource providing end one by one. Further, the meta-space data of each first resource provider also includes resource data of the first resource provider. For the resource data of each first resource provider, please refer to the detailed description of the related content in the embodiment of the present invention, which is not described herein again. It should be noted that the metasresource pool may also be understood as a metasvirtual space.

It can be seen that, by implementing the resource intelligent matching method based on the metastic space described in fig. 1, the resource required by the resource demand end can be automatically and accurately determined according to the identification information and the metastic space image corresponding to the resource demand end, and the metastic space data of the resource providing end capable of providing the resource is automatically screened in the metastic space resource pool and sent to the resource demand end or displayed in the metastic space resource pool, so that the resource demand end and the resource providing end can perform online visual interaction in an immersive manner, and the interaction efficiency and accuracy between the resource demand end and the resource providing end are improved while the method is not limited by the original entity place and the information is not gathered, so that the resource demand end can efficiently and accurately obtain the required resource; and by selecting the matched resource providing end, the resource providing end can conveniently, efficiently and accurately convert the resource provided by the resource demand end from non-standardized to standardized resource in the meta universe resource pool, and the reliability of the resource can be improved.

In an optional embodiment, the method may further comprise the operations of:

the meta-universe resource end receives an establishment request which is sent by at least one second resource providing end and aims at the meta-universe data of the meta-universe resource end in the meta-universe resource pool;

for any second resource provider:

the meta universe resource end determines the resource data of the second resource provider according to the establishment request of the second resource provider, wherein the resource data of the second resource provider comprises identification information corresponding to the second resource provider and/or the resource provider data of the second resource provider;

the method comprises the steps that a metascosmos resource source end screens a target metascosmos resource control end matched with a second resource providing end from a plurality of metascosmos resource control ends according to resource data of the second resource providing end and resource control data of each metascosmos resource control end in a metascosmos resource pool, and sends a check prompt to the target metascosmos resource control end, wherein the check prompt comprises the resource data of the second resource providing end and is used for prompting the target metascosmos resource control end to check the resource data of the second resource providing end, and each metascosmos resource control end has a unique corresponding actual resource control end;

when it is detected that the resource data which is sent by the target metasource resource control terminal and used for representing the second resource providing terminal passes verification, the metasource resource source terminal determines actual scene data of the second resource providing terminal, and generates metasphere data which correspond to the actual scene data of the second resource providing terminal one by one in the metasphere resource pool according to the actual scene data of the second resource providing terminal and the resource data of the second resource providing terminal.

In this alternative embodiment, all the first resource providers include all the second resource providers. The identification information corresponding to the second resource provider includes the device identifier of the second resource provider and/or the resource identifier of the resource provided by the second resource provider. The resource provisioning data of the second resource provider comprises a second resource provisioning type. Wherein the resource providing type comprises an item resource providing type and/or a non-item resource providing type, and the resource providing type comprises a primary resource providing type and a secondary resource providing type. Further, the resource providing data further comprises one or more of resource providing scale, resource providing location and a region where the resource is located, so that the more content the resource providing data contains, the more the verification accuracy of the resource providing end is improved, and the more the establishment accuracy of the meta-universe data of the resource providing end is improved.

In this optional embodiment, optionally, there are corresponding resource management and control elements (e.g., aluminum industry, apple industry, etc.), actual scene data corresponding to the resource management and control elements, and resource management and control data corresponding to the actual scene data at the metastic resource management and control end. The resource control data comprises resource control types, and the resource control types comprise article resource control types and/or non-article resource control types. Furthermore, the resource control data further comprises one or more of resource control scale, resource control type positioning, resource control area identification and resource control flow, so that the more the content of the resource control data is, the more the screening accuracy of the resource control end is favorably improved, the checking accuracy of the resource providing end is further improved, and the more the establishing accuracy of the meta-space data of the resource providing end is favorably improved.

In this optional embodiment, the method may further include the steps of:

the method comprises the steps that a meta-universe resource control end determines resource data of a plurality of resource providing ends in a corresponding meta-universe resource pool, sequencing is carried out according to the resource data of each resource providing end to obtain all sequenced resource providing ends, and the meta-universe data of each sequenced resource providing end are displayed in the meta-universe resource pool.

Therefore, when the resource providing end needs to establish the meta-universe data of the resource providing end, the alternative embodiment can automatically establish the meta-universe data which correspond to the actual scene one by one in the meta-universe resource pool according to the actual scene data and the resource data of the resource providing end, provide the experience of immersive browsing, selection and the like consistent with the actual scene for other parties on line, so that the other parties can interact with the resource providing end at any time and any place, improve the interaction efficiency and enrich the meta-universe resource pool; and the resource data of the resource providing terminal is automatically checked by matching a proper metachronic resource control terminal in the metachronic resource pool, and after the check is passed, the operation of establishing other metachronic data for the resource providing terminal is executed, so that the execution accuracy and reliability of the operation can be improved, the occurrence condition that the illegal resource providing terminal is inserted into the metachronic resource pool is favorably reduced, the metachronic resource pool is enriched, and meanwhile, the accurate and reliable metachronic resource pool can be obtained.

In this optional embodiment, optionally, the generating, by the metasresource source, the metasresource data corresponding to the actual scene data of the second resource provider one to one in the metasresource pool according to the actual scene data of the second resource provider and the resource data of the second resource provider includes:

the meta-universe resource end performs sub-scene division on actual scene data of the second resource providing end according to the scene function division mode to obtain a plurality of sub-actual scene data, and determines the resource type provided by the second resource providing end according to the resource data of the second resource providing end;

the meta-universe resource end establishes a three-dimensional model matched with the sub-actual scene data according to the resource type corresponding to the second resource providing end, each sub-actual scene data and the function of the sub-actual scene data;

the meta-universe resource end determines the color condition of each piece of sub-actual scene data, and renders the three-dimensional model of the sub-actual scene data based on the color condition of each piece of sub-actual scene data to obtain a rendered three-dimensional model;

the meta-space resource end determines the position of the second resource providing end in the meta-space resource pool according to the resource type provided by the second resource providing end, and generates the meta-space data corresponding to the actual scene data of the second resource providing end one by one according to the rendered three-dimensional model corresponding to each piece of sub-actual scene data, the position corresponding to the second resource providing end and the resource data of the second resource providing end.

Therefore, according to the optional embodiment, the actual scene data of the resource providing end is divided according to the scene functions, the corresponding three-dimensional model is established according to the resource types provided by the resource providing end, the divided sub-actual scene data and the scene functions thereof, the accuracy and the efficiency of establishing the three-dimensional model can be improved, the position in the metastic resource pool determined based on the provided resource types is combined, the metastic data in the metastic resource pool is generated, the generation accuracy and the reliability of the metastic data can be improved, and the vivid and accurate metastic data matched with the actual scene are obtained.

In another optional embodiment, the method may further comprise the operations of:

the method comprises the steps that a metas resource end detects an establishing request triggered by at least one resource control end aiming at a metas resource pool, wherein the establishing request corresponding to each resource control end comprises resource control elements (such as aluminum industry and apple industry) of the resource control end, an actual control scene corresponding to the resource control elements of the resource control end and resource control data corresponding to the actual control scene;

aiming at any resource control end:

determining the data type and the data volume of each sub-resource control data in the resource control data of the resource control end by the meta-universe resource end;

the meta-universe resource end calculates the integrity of the data types of the resource control end according to the data types of all the sub-resource control data corresponding to the resource control end, and calculates the integrity of the data amount of the resource control end according to the data amount of all the sub-resource control data corresponding to the resource control end;

the meta-universe resource end judges whether the integrity of the data type of the resource control end is greater than or equal to a preset data type integrity threshold value or not and whether the integrity of the data volume of the resource control end is greater than or equal to a preset data volume integrity or not;

when the judgment result is yes, the metasource end establishes a metasource pool of the resource control end as the metasource pool of the metasource end according to each piece of sub-resource control data of the resource control end, the data type and the data volume of the resource control data, the resource control element and an actual control scene corresponding to the resource control element of the resource control end;

and the meta-universe data of at least one resource providing end exists in the meta-universe resource pool of each resource management and control end. And the type of the resource providing end contained in the meta-universe resource pool of each resource control end is more than or equal to 1.

In this optional embodiment, optionally, the resource management and control end includes an entity park management and control end and/or a local government management and control end.

It should be noted that, a basic meta-universe resource pool exists, and a meta-universe resource pool of a resource control end can be continuously established in the basic meta-universe resource pool.

Therefore, in the optional embodiment, the data type integrity of the resource control end and the data volume integrity of each resource control data are calculated through the data type of each resource control data of the resource control end, the qualification of the resource control end is verified based on the data type integrity and the data volume integrity, the qualification verification accuracy and reliability of the resource control end can be improved, a metasequoire resource pool corresponding to the resource control end is established in the metasequoire resource pool based on each sub-resource control data, the data type and the data volume of the resource control data and an actual control scene corresponding to the resource control end, the establishing accuracy of the metasequoire resource pool of the resource control end can be improved, the metasequoire resource pool completely identical to the actual scene of the resource control end is obtained, and accordingly, the immersive browsing interaction experience is provided for the resource demand end anytime and anywhere.

Example two

Referring to fig. 2, fig. 2 is a schematic flowchart of another intelligent resource matching method based on the metastic universe according to an embodiment of the present invention. The method described in fig. 2 may be applied to a metasystem, where the metasystem includes a metasystem resource source, a resource requirement source, a plurality of resource providers, and a plurality of resource management and control sources. As shown in fig. 2, the resource intelligent matching method based on the metasma may include the following operations:

201. and the meta-universe resource end detects the meta-universe resource requirement triggered by the resource requirement end, and the meta-universe resource requirement comprises identification information corresponding to the resource requirement end.

202. And the meta universe resource end determines the meta universe representation of the trigger corresponding to the meta universe resource requirement in the meta universe resource pool of the meta universe resource end according to the identification information corresponding to the resource requirement end.

203. The meta-universe resource source end determines target resources required by the resource demand end according to the identification information corresponding to the resource demand end and the meta-universe images corresponding to the triggers, the target resources comprise multiple types of sub-target resources, each type of sub-target resource at least has one corresponding sub-resource providing end, and the target resource providing ends comprise all sub-resource providing ends.

204. And the meta-universe resource end determines the requirement sequence of the sub-target resource of the resource type of each seed target resource according to the identification information corresponding to the resource requirement end.

205. And the meta-universe resource end determines the output sequencing of the meta-universe data of all the child resource providing ends corresponding to the child target resources according to the resource type and the requirement sequencing of each seed target resource.

206. And the meta-universe resource source selects a sub-resource provider matched with each seed target resource from all the first resource providers of the meta-universe resource pool and the meta-universe data of the sub-resource provider.

207. And the meta-universe resource end sequentially executes the output of the meta-universe data of all the sub-resource providing ends corresponding to each seed target resource to the trigger according to the output sequence corresponding to all the sub-target resources, so that the trigger can check the meta-universe data and execute interactive operation with all the sub-resource providing ends of the sub-target resources through the resource demand end.

In the embodiment of the invention, a plurality of meta universe images and meta universe data of a plurality of first resource providing ends are stored in the meta universe resource pool, and the meta universe data of each first resource providing end comprises data corresponding to actual scene data of the first resource providing end one by one.

In the embodiment of the invention, the interactive operation corresponding to each seed target resource comprises that a resource demand end detects a trigger to screen a required sub-resource provider from all sub-resource providers corresponding to the sub-target resource and/or controls a meta-cosmic image corresponding to the trigger to be in a meta-cosmic resource pool, controls the meta-cosmic image corresponding to the trigger to be in the meta-cosmic resource pool, and screens the required sub-resource provider from all sub-resource providers corresponding to the sub-target resource.

It should be noted that, for other detailed descriptions of step 201 to step 203, step 206, and step 207, please refer to the detailed description of other contents of step 101 to step 105 in the first embodiment, which is not repeated herein.

It can be seen that, by implementing the resource intelligent matching method based on the metastic space described in fig. 2, the resource required by the resource demand end can be automatically and accurately determined according to the identification information and the metastic space image corresponding to the resource demand end, and the metastic space data of the resource providing end capable of providing the resource is automatically screened in the metastic space resource pool and sent to the resource demand end or displayed in the metastic space resource pool, so that the resource demand end and the resource providing end can perform online visual interaction in an immersive manner, and the interaction efficiency and accuracy between the resource demand end and the resource providing end are improved while the method is not limited by the original entity place and the information is not gathered, so that the resource demand end can efficiently and accurately obtain the required resource; and by selecting the matched resource providing end, the resource providing end is convenient to efficiently and accurately convert the resource provided by the resource demand end into the standardized resource from the non-standardized resource in the metasource pool, and the reliability of the resource is favorably improved. In addition, the resource type and the requirement sequence of each resource required by the resource demand end are determined to select the resource demand end and sequentially output the corresponding meta-universe data of the sub-resource providing end according to the requirement sequence, the output accuracy of the meta-universe data corresponding to each resource type can be improved, the resource demand end is accurately supplied to check and interact with the sub-resource providing end, the interaction efficiency and the accuracy between the resource demand end and the sub-resource providing end can be further improved, and the acquisition efficiency and the accuracy of the resource required by the resource demand end are further improved.

In an alternative embodiment, the metasource side performs outputting the metasource data of the target resource provider to the trigger for the trigger to view and perform interactive operations with the target resource provider, including:

the meta-universe resource end sends the meta-universe data of the target resource providing end to the resource demand end for a trigger to check and interacts with the target resource providing end through the resource demand end and a meta-universe resource pool of the meta-universe resource end; or the like, or a combination thereof,

and the source universe resource end displays the meta universe data of the target resource providing end to the meta universe image corresponding to the trigger in the meta universe resource pool of the source universe resource end so that the resource demand end controls the interaction of the meta universe image corresponding to the trigger and the meta universe image corresponding to the target resource providing end in the meta universe resource pool of the source universe resource end.

Therefore, in the optional embodiment, the source cosmic data of the source providing end is sent to the source requiring end or the source cosmic image corresponding to the source requiring end is directly displayed in the source cosmic resource pool of the source cosmic resource end, so that the output mode of the source providing end is enriched, the output efficiency of the source providing end is improved, and the interaction efficiency of the source requiring end and the source providing end is further improved; and by directly displaying the meta-universe data of the resource providing end in the meta-universe resource pool, the output accuracy and the vividness of the meta-universe data are improved, and the interaction accuracy and the flexibility are improved while the interaction efficiency of the resource requiring end and the resource providing end is improved.

In another optional embodiment, when the target resource comprises an item resource, the meta-space data of the target resource provider further comprises data of at least one target item matching the type of the item resource;

the method comprises the following steps that a resource demand end controls a meta-space portrait corresponding to a trigger to interact with a meta-space portrait of a target resource providing end in a meta-space resource pool of a meta-space resource end, and the method comprises the following steps:

the resource demand end controls the meta-universe images corresponding to the triggers to browse the data of each target article in a meta-universe resource pool of the meta-universe resource end, and the required target articles are screened from all the target articles;

after the required target object is selected, the resource demand end controls the meta-cosmic image corresponding to the trigger to send a customization demand aiming at the required target object to the meta-cosmic image of the target resource providing end so as to trigger the meta-cosmic image of the target resource providing end to send the customization demand to the target resource providing end, and the customization demand comprises data of the required target object.

Therefore, according to the optional embodiment, when the resource demand end needs to select and purchase the article, the meta-space portrait is directly controlled to browse the article data in the meta-space resource pool for selecting and purchasing, and after the required article is selected and purchased, the meta-space portrait is directly controlled to send the customization request of the selected and purchased article to the resource providing end, so that an immersive article selection and purchase mode can be provided, the article selection and purchase accuracy is improved, and the experience is improved.

In yet another optional embodiment, the method may further comprise the steps of:

a target end determines a virtual model of an article and processing data of the article, wherein the virtual model needs to be processed by a resource demand end, and the target end comprises a metastic resource end or a resource demand end;

when a trigger is detected to select the sub-resource providing end with the first sequence from all the sub-resource providing ends corresponding to each seed target resource as the current sub-resource providing end according to the output sequence corresponding to all the sub-target resources, the target end selects the sub-resource providing end with the first sequence from all the required sub-resource providing ends as the current sub-resource providing end, and sends the virtual model of the object required to be processed by the resource demand end and the processing data of the object to the current sub-resource providing end so as to trigger the current sub-resource providing end to execute the operation matched with the resource type corresponding to the current sub-resource providing end on the virtual model of the object in the metacavic resource pool according to the processing data of the object, and determine the target virtual model of the object and the target processing data of the object after the operation is executed;

the target terminal updates the next sub-resource providing terminal to the current sub-resource providing terminal according to the output sequence corresponding to all the sub-target resources, updates the target virtual model of the article and the target processing data of the article to the virtual model of the article and the processing data of the article, re-executes the virtual model of the article required to be processed by the resource demand terminal and the processing data of the article to be sent to the current sub-resource providing terminal so as to trigger the current sub-resource providing terminal to execute the operation of matching the resource type corresponding to the current sub-resource providing terminal on the virtual model of the article in the metastic resource pool according to the processing data of the article, and determines the operation of executing the target virtual model of the article and the target processing data of the article until all the required sub-resource providing terminals finish the matching operation; or,

the current sub-resource provider determines output sequences corresponding to all sub-target resources, screens a next sub-resource provider from all the sub-resource providers according to the output sequences corresponding to all the sub-target resources, sends a target virtual model of an article and target processing data of the article to the next sub-resource provider so as to trigger the next sub-resource provider to execute a resource type matching operation on the target virtual model of the article and the target processing data of the article after the operation is executed according to the target processing data of the article in a metasresource pool, and determines the target virtual model of the article and the target processing data of the article after the operation is executed until all the required sub-resource providers finish the matching operation.

In this optional embodiment, when the target end is a metasresource end, the virtual model of the article and the processing data of the article that are required by the resource requirement end to be processed may be carried in the metasresource requirement.

Therefore, in the optional embodiment, after the resource demand end determines the resource providing end of each required resource type, the data of the articles to be processed are sequentially sent to the corresponding resource providing ends according to the requirement sequence of the resources required by the resource demand end so that the resource providing ends process the articles in the metastic resource pool, and the interaction efficiency between the resource demand end or the metastic resource end and the resource providing end can be improved, so that the article processing efficiency is improved; after the last resource provider finishes processing the article, sending the data after processing the article to the next resource provider, and repeating the steps in sequence until the last resource provider finishes processing the article, so that the processing accuracy and reliability of the article can be improved while step-by-step processing is carried out; and the subsequent resource providing end can trace the source of the processing flow of the article.

In yet another optional embodiment, the method may further comprise the steps of:

after all the required sub-resource providing ends finish the matching operation, the last required sub-resource providing end sends the obtained target virtual model of the article and the target processing data of the article to all other sub-resource providing ends except the last required sub-resource providing end in all the required sub-resource providing ends so that the sub-resource providing end can update the meta-space data of the sub-resource providing end, and sends the meta-space data to the target end for a trigger to check and/or store in a target mode.

In this optional embodiment, the method further includes: after the sub-resource providing end finishes the matching operation, generating processing data of the sub-resource providing end for processing the article by a target virtual model of the article and processing data of the article, identification information corresponding to the resource requiring end, resource data of the sub-resource providing end and processing time of the article, and simultaneously sending the processing data to the next resource providing end, the resource requiring end and the meta-universe resource end; after all the child resource providing terminals finish the matched operation on the articles, the resource demand terminal or the meta-universe resource terminal generates the traceability data of the articles according to the received processing data sent by each child resource providing terminal, and displays the traceability data in the meta-universe resource pool. Therefore, data obtained by all operations of the articles are visualized, so that all parties can trace the source and effectively manage the articles.

Therefore, in the optional embodiment, after all the resource providing ends perform the related processing operation on the article, the last resource providing end automatically sends the final processing data and the virtual model of the article to all the other resource providing ends and the resource demand end which process the article and the meta-universe resource end, so that each end can visually trace the whole processing flow of the article, and the tracing efficiency, the tracing accuracy and the tracing intuition of the article are improved.

In yet another optional embodiment, the method may further comprise the steps of:

after all the required child resource providing terminals finish the matching operation, the metastic resource terminal carries out system digital trade mode sale on the article corresponding to the resource demand terminal in the metastic resource pool, wherein the system digital trade mode comprises one or more of a direct sale trade mode, a cloud warehouse direct sale mode and a cloud warehouse separate accounting distribution trade mode. The system comprises a direct sale trading mode, a cloud warehouse direct sale mode and a cloud warehouse separate account distribution trading mode, wherein the direct sale trading mode, the cloud warehouse direct sale mode and the cloud warehouse separate account distribution trading mode all have commodity flow characteristics, ticket flow characteristics and cash flow characteristics, and when the system digital trading mode is the direct sale trading mode, the cloud warehouse direct sale mode or the cloud warehouse separate account distribution trading mode, the commodity flow characteristics are used for representing that a seller end directly delivers commodities to a transaction opponent buyer end; the ticket flow characteristic is used for representing the direct opening of the seller to the buyer of the counterparty; when the system digital trade mode is a direct sale trade mode or a cloud warehouse direct sale mode, the cash flow characteristic is used for representing that the buyer side directly pays to the seller side of the counterparty; a cloud warehouse branch account distribution trade mode; when the system digital trade mode is a cloud storehouse separate accounting distribution trade mode, the cash flow characteristic is used for being directly paid to a seller end of a transaction opponent by a buyer end, and the seller end is redistributed to a proxy end, a distribution end and other roles for assisting in sales.

In the optional embodiment, when the article is transported, the transport device collects video monitoring data and/or non-video monitoring data, such as temperature control information, transport route information and the like, in the article transportation process, and synchronizes the collected video monitoring data and/or non-video monitoring data to all sub-resource providing ends, resource demand ends and meta-universe resource ends associated with the article in the meta-universe resource pool for storage and display.

Therefore, in the optional embodiment, after the multi-level processing is performed on the article corresponding to the resource demand end, the article is sold in the metacavic resource pool in multiple sales modes, so that the sales efficiency of the article can be improved, and the article resources are maximally utilized; and synchronizing the data of the articles in the transportation process into the metasresource pool for visualization so that all the parties can quickly and clearly know the transportation condition of the articles anytime and anywhere.

The invention is exemplified by taking the resource demand end as an apple planting farmer house end, the resource monitoring end as an apple agricultural product entity park management end, and the resource supply end as an apple industry chain (such as cleaning, grading, quality inspection and the like) related enterprise end as examples:

the management end of the entity park of the apple agricultural products establishes a meta universe resource pool of the apple agricultural products, which comprises establishing park scenes of enterprises and business display process scenes of the enterprises; cleaning and grading equipment factories, classification detection mechanisms, deep processing enterprises, refrigeration house enterprises and financial institutions related to the apple industry chain enter a universe resource pool, an enterprise production flow is established, and a flow scene of business reception and the like is provided for users to experience and visit; apple planting farmers reside in the meta universe, and provide or select user images to establish users in the meta universe; selecting enterprises which purchase cleaning and grading services in cleaning and grading equipment factories to experience and visit through an intelligent recommendation meta-universe digital park, and determining to select the purchasing services; farmers can select Yuan universe digital park to provide a detection mechanism, experience and visit enterprises which detect cleaned and graded apples, and determine to select purchasing services; the peasant household distinguishes and processes the products after being cleaned, graded and detected; farmers can select the Yuan universe digital park to provide the experience and visit of the cold storage service enterprises, and determine to select the purchasing service, and store the cleaned, graded and detected high-quality apples; farmers can select the Yuanzhou digital park to provide deep processing service enterprises for experience and visit, determine to select purchasing service, make the apples with different quality after cleaning, grading and detection into products such as apple juice and the like through the deep processing enterprises, and select the cold storage service enterprises for storage; the peasant household can experience and visit the financial institution which has been washed, graded and detected and merged into the warehouse to find the unit universe digital park, and confirm to select the purchasing service and confirm the warrant pledge of the financial institution; the farmer end can sell through at least three digital trade modes including a direct sale trade mode, a cloud bin direct sale mode and a cloud bin split account distribution trade mode provided by the meta universe; the purchasing user can visually trace the circulation information/source tracing information of the apple through the whole process of the meta-universe resource pool.

EXAMPLE III

Referring to fig. 3, fig. 3 is a schematic structural diagram of a metasystem according to an embodiment of the present invention. Wherein the metasystem depicted in fig. 3 includes a metasource side, and as shown in fig. 3, the metasource side includes:

a detection module 301, configured to detect a meta-universe resource requirement triggered by a resource requirement end, where the meta-universe resource requirement includes identification information corresponding to the resource requirement end;

a determining module 302, configured to determine a meta-universe image of a trigger corresponding to a meta-universe resource requirement in a meta-universe resource pool of the meta-universe resource source end according to identification information corresponding to the resource requirement end;

the determining module 302 is further configured to determine a target resource required by the resource demand end according to the identification information corresponding to the resource demand end and the meta-space portrait corresponding to the trigger;

a selecting module 303, configured to select a target resource provider matched with the target resource and the meta-universe data of the target resource provider from all the first resource providers of the meta-universe resource pool;

the execution module 304 is configured to execute outputting of the meta-universe data of the target resource provider to the trigger, so that the trigger can view the meta-universe data and perform an interactive operation with the target resource provider;

the meta-universe resource pool stores a plurality of meta-universe images and meta-universe data of a plurality of first resource providing ends, and the meta-universe data of each first resource providing end comprises data corresponding to actual scene data of the first resource providing end one by one.

It can be seen that, implementing the metastic system described in fig. 3, automatically and accurately determining the resource required by the resource demand side according to the identification information and the metastic images corresponding to the resource demand side, and automatically screening metastic data of the resource providing side capable of providing the resource in the metastic resource pool to send the metastic data to the resource demand side or displaying the metastic data in the metastic resource pool, which is convenient for the resource demand side and the resource providing side to perform online visual interaction in an immersive manner, improves the interaction efficiency and accuracy between the resource demand side and the resource providing side while being no longer limited by the original physical location and without the influence of information gathering together, and thus, is convenient for the resource demand side to efficiently and accurately obtain the required resource; and by selecting the matched resource providing end, the resource providing end can conveniently, efficiently and accurately convert the resource provided by the resource demand end from non-standardized to standardized resource in the meta universe resource pool, and the reliability of the resource can be improved.

In an alternative embodiment, as shown in FIG. 4, the source of the metastic resources further includes:

a first communication module 305, configured to receive an establishment request for its meta-universe data in a meta-universe resource pool sent by at least one second resource provider;

for any of the second resource providers:

the determining module 302 is further configured to determine resource data of the second resource provider according to the establishment request of the second resource provider, where the resource data of the second resource provider includes identification information corresponding to the second resource provider and/or resource provider data of the second resource provider;

the selecting module 303 is further configured to screen a target metasource resource control end matched with the second resource providing end from the multiple metasource resource control ends according to the resource data of the second resource providing end and the resource control data of each metasource resource control end of the multiple metasource resource control ends in the metasource resource pool;

the first communication module 305 is further configured to send a verification prompt to the target metasource resource control end, where the verification prompt includes resource data of the second resource provider and is used to prompt the target metasource resource control end to verify the resource data of the second resource provider, and a unique corresponding actual resource control end exists at each metasource resource control end;

the determining module 302 is further configured to determine actual scene data of the second resource provider when it is detected that the resource data sent by the target meta-cosmic resource management and control end and used for representing the second resource provider passes verification;

the generating module 306 is configured to generate, in the metasresource pool, metastic data corresponding to actual scene data of the second resource provider one to one according to the actual scene data of the second resource provider and the resource data of the second resource provider.

It can be seen that, by implementing the metastic system described in fig. 4, when there is a resource providing end that needs to establish the metastic data thereof, the metastic data corresponding to the actual scene one by one is automatically established in the metastic resource pool according to the actual scene data and the resource data of the resource providing end, and the experiences such as immersive browsing selection and the like consistent with the actual scene can be provided for other parties on line, so that the other parties can interact with the resource providing end at any time and any place, the interaction efficiency is improved, and the metastic resource pool is enriched; and the resource data of the resource providing terminal is automatically checked by matching a proper metachronic resource control terminal in the metachronic resource pool, and after the check is passed, the operation of establishing other metachronic data for the resource providing terminal is executed, so that the execution accuracy and reliability of the operation can be improved, the occurrence condition that the illegal resource providing terminal is inserted into the metachronic resource pool is favorably reduced, the metachronic resource pool is enriched, and meanwhile, the accurate and reliable metachronic resource pool can be obtained.

In yet another alternative embodiment, as shown in fig. 4, a specific manner of generating, in the metasource pool, the metasource data corresponding to the actual scene data of the second resource provider in a one-to-one manner by the generating module 306 according to the actual scene data of the second resource provider and the resource data of the second resource provider includes:

performing sub-scene division on actual scene data of a second resource provider according to a scene function division mode to obtain a plurality of sub-actual scene data, and determining the resource type provided by the second resource provider according to the resource data of the second resource provider;

establishing a three-dimensional model matched with the sub-actual scene data according to the resource type corresponding to the second resource provider, each sub-actual scene data and the function of the sub-actual scene data;

determining the color condition of each sub-actual scene data, and rendering the three-dimensional model of each sub-actual scene data based on the color condition of each sub-actual scene data to obtain a rendered three-dimensional model;

and determining the position of the second resource providing end in the metasource resource pool according to the resource type provided by the second resource providing end, and generating the metasource data which is in one-to-one correspondence with the actual scene data of the second resource providing end according to the rendered three-dimensional model corresponding to each piece of sub-actual scene data, the position corresponding to the second resource providing end and the resource data of the second resource providing end.

Therefore, the metas system described in fig. 4 can also divide the actual scene data of the resource providing end according to the scene function, establish a corresponding three-dimensional model according to the resource type provided by the resource providing end, the divided sub-actual scene data and the scene function thereof, improve the accuracy and efficiency of establishing the three-dimensional model, generate the metas data in the metas resource pool by combining the position in the metas resource pool determined based on the provided resource type, improve the generation accuracy and reliability of the metas data, and obtain vivid and accurate metas data matched with the actual scene.

In yet another alternative embodiment, as shown in fig. 4, the target resource includes a plurality of sub-target resources, each sub-target resource has at least one corresponding sub-resource provider, and the target resource provider includes all sub-resource providers;

the determining module 302 is further configured to determine, according to the identification information corresponding to the resource demand end, a demand order of the sub-target resource of the resource type of each seed target resource, and determine, according to the resource type and the demand order of each seed target resource, an output order of the meta-universe data of all the sub-resource providers corresponding to the sub-target resource;

the specific way that the execution module 304 executes to output the meta-universe data of the target resource provider to the trigger, so that the trigger can view and execute the interactive operation with the target resource provider includes:

and sequentially executing output of the meta-universe data of all the sub-resource providing ends corresponding to each sub-target resource to the trigger according to the output sequence corresponding to all the sub-target resources, so that the trigger can check the meta-universe data and execute interactive operation with all the sub-resource providing ends of the sub-target resources through the resource demand end, wherein a plurality of meta-universe images and the meta-universe data of a plurality of first resource providing ends are stored in the meta-universe resource pool, and the meta-universe data of each first resource providing end comprises data corresponding to actual scene data of the first resource providing end one by one.

Therefore, by implementing the metastables system described in fig. 4, the resource type and the requirement sequence of each resource required by the resource requiring end can be determined to select the resource requiring end and sequentially output the metastables data of the corresponding sub-resource providing ends according to the requirement sequence, the output accuracy of the metastables data corresponding to each resource type can be improved, the resource requiring end can be accurately provided to view and interact with the sub-resource providing ends, the interaction efficiency and accuracy between the resource requiring end and the sub-resource providing ends can be further improved, and the acquisition efficiency and accuracy of the resources required by the resource requiring end can be further improved.

In yet another alternative embodiment, as shown in FIG. 4, the metasystem further includes a resource requirement side and a plurality of resource providers;

the determining module 302 is further configured to determine a virtual model of an article and processing data of the article, which are required to be processed by a resource requiring end, where the target end includes a meta universe resource end or a resource requiring end;

the selecting module 303 is further configured to, after detecting that the trigger screens the sub-resource providers from all the sub-resource providers corresponding to each sub-target resource, screen the sub-resource provider with the first order from all the required sub-resource providers as the current sub-resource provider according to the output order corresponding to all the sub-target resources;

and as shown in fig. 4, the metasystem further includes:

a second communication module 307, configured to send the virtual model of the article and the processing data of the article, which are required to be processed by the resource demand side, to the current sub-resource providing side, so as to trigger the current sub-resource providing side to execute, in the meta-space resource pool, an operation matching the resource type corresponding to the current sub-resource providing side on the virtual model of the article according to the processing data of the article, and determine a target virtual model of the article and target processing data of the article after the operation is executed;

an updating module 308, configured to update the next sub-resource providing end to the current sub-resource providing end according to the output sequence corresponding to all the sub-target resources, update the target virtual model of the article and the target processing data of the article to the virtual model of the article and the processing data of the article, trigger the second communication module 307 to re-execute the above-mentioned virtual model of the article and the processing data of the article, which are required to be processed by the resource requiring end, and send the virtual model of the article and the processing data of the article to the current sub-resource providing end, so as to trigger the current sub-resource providing end to execute, in the meta-space resource pool, an operation matching the resource type corresponding to the current sub-resource providing end on the virtual model of the article according to the processing data of the article, and determine an operation of executing the target virtual model of the article and the target processing data of the article until all the required sub-resource providing ends finish the matching operation; or,

and the current sub-target resource is used for determining the output sequences corresponding to all the sub-target resources, screening a next sub-resource provider from all the sub-resource providers according to the output sequences corresponding to all the sub-target resources, sending the target virtual model of the article and the target processing data of the article to the next sub-resource provider so as to trigger the next sub-resource provider to execute resource type matching operation on the target virtual model of the article and the target processing data of the article corresponding to the next sub-resource provider in the metasresource pool according to the target processing data of the article, and determining the target virtual model of the article and the target processing data of the article after executing the operation until all the required sub-resource providers finish the matching operation.

It can be seen that, by implementing the metastic system described in fig. 4, after determining the resource providing end of each required resource type at the resource requiring end, the data of the items to be processed is sequentially sent to the corresponding resource providing end according to the requirement sequence of the resource required by the resource requiring end, so that the resource providing end processes the items in the metastic resource pool, and the interaction efficiency between the resource requiring end or the metastic resource end and the resource providing end can be improved, thereby improving the efficiency of item processing; after the last resource providing end finishes processing the article, sending data after processing the article to the next resource providing end, and repeating the steps in sequence until the last resource providing end finishes processing the article, so that the processing accuracy and reliability of the article can be improved while step-by-step processing is carried out; and the tracing of the subsequent resource providing end to the processing flow of the article is facilitated.

In yet another optional embodiment, the last required child resource provider is configured to, after all required child resource providers finish performing the matching operation, send the obtained target virtual model of the article and the target processing data of the article to all other child resource providers except the last required child resource provider in all required child resource providers, so that the child resource provider updates the meta-space data thereof, and send the meta-space data to the target for a trigger to view and/or target storage.

Therefore, in the optional embodiment, after all the resource providing terminals perform the related processing operation on the article, the last resource providing terminal automatically sends the final processing data and the virtual model of the article to all the other resource providing terminals and the resource demand terminal which have processed the article and the meta-universe resource terminal, so that all the terminals can trace the whole processing flow of the article, and the efficiency and the accuracy of tracing the article are improved.

In yet another alternative embodiment, as shown in fig. 3 or 4, the manner in which the execution module 303 executes to output the meta-universe data of the target resource provider to the trigger, so that the trigger views and performs the interactive operation with the target resource provider specifically includes:

sending the meta-universe data of the target resource providing end to a resource demand end for a trigger to check, and interacting with the target resource providing end through a resource demand end and a meta-universe resource pool of the meta-universe resource end; or,

and displaying the meta-universe data of the target resource providing end to the meta-universe image corresponding to the trigger in the meta-universe resource pool of the meta-universe resource end so that the resource demand end controls the meta-universe image corresponding to the trigger to interact with the meta-universe image corresponding to the target resource providing end in the meta-universe resource pool of the meta-universe resource end.

Therefore, by implementing the system described in 3 or 4, the meta-universe data of the resource providing end is sent to the resource requiring end or the meta-universe portrait corresponding to the resource requiring end is directly displayed in the meta-universe resource pool of the meta-universe resource end, so that the output mode of the meta-universe data of the resource providing end is enriched, the output efficiency of the meta-universe data of the resource providing end is favorably improved, and the interaction efficiency of the resource requiring end and the resource providing end is further favorably improved; and by directly displaying the meta-universe data of the resource providing end in the meta-universe resource pool, the output accuracy and the vividness of the meta-universe data are improved, and the interaction accuracy and the flexibility are improved while the interaction efficiency of the resource requiring end and the resource providing end is improved.

In yet another alternative embodiment, when the target resource comprises an item resource, the meta-space data of the target resource provider further comprises data of at least one target item matching the type of the item resource;

the specific way of interaction between the meta-universe image corresponding to the trigger and the meta-universe image of the target resource providing end in the meta-universe resource pool of the meta-universe resource end by the resource requirement end comprises the following steps:

controlling the meta-space image corresponding to the trigger to browse the data of each target article in a meta-space resource pool of the meta-space resource end, and screening the required target articles from all the target articles;

after the required target object is selected, the meta-space portrait corresponding to the trigger is controlled to send a customization requirement aiming at the required target object to the meta-space portrait of the target resource providing end, so that the meta-space portrait of the target resource providing end is triggered to send the customization requirement to the target resource providing end, and the customization requirement comprises data of the required target object.

Therefore, according to the optional embodiment, when the resource demand end needs to select and purchase the article, the meta-space portrait is directly controlled to browse the article data in the meta-space resource pool for selecting and purchasing, and after the needed article is selected and purchased, the meta-space portrait is directly controlled to send the customization request of the selected and purchased article to the resource providing end, so that an immersive article selection and purchase mode can be provided, the article selection and purchase accuracy is improved, and the experience is improved.

In yet another alternative embodiment, as shown in fig. 4, the detecting module 301 is further configured to detect an establishment request triggered by at least one resource management and control end for the meta-universe resource pool, where the establishment request corresponding to each resource management and control end includes a resource management and control element of the resource management and control end, an actual management and control scenario corresponding to the resource management and control element of the resource management and control end, and resource management and control data corresponding to the actual management and control scenario;

aiming at any resource management and control end:

the determining module 302 is further configured to determine a data type of each sub-resource management and control data in the resource management and control data of the resource management and control end and a data amount of each sub-resource management and control data;

and as shown in fig. 4, the metastic resource source further includes:

the calculating module 309 is configured to calculate the integrity of the data type of the resource control end according to the data types of all the sub-resource control data corresponding to the resource control end, and calculate the integrity of the data volume of the resource control end according to the data volume of all the sub-resource control data corresponding to the resource control end;

the determining module 310 is configured to determine whether the integrity of the data type of the resource management and control end is greater than or equal to a preset threshold of the integrity of the data type and whether the integrity of the data volume of the resource management and control end is greater than or equal to a preset integrity of the data volume;

the establishing module 311 is configured to, when the determination result is yes, establish a metasource pool of the resource control end as a metasource pool of the metasource resource end according to each child resource control data of the resource control end, the data type and the data amount of the resource control data, the resource control element of the resource control end, and an actual control scene corresponding to the resource control element of the resource control end;

and the meta-universe data of at least one resource providing end exists in the meta-universe resource pool of each resource management and control end. And the type of the resource providing end contained in the meta-universe resource pool of each resource control end is more than or equal to 1.

It can be seen that, in the optional embodiment, the data type integrity of the resource management and control end and the data volume integrity of each resource management and control data are calculated through the data type of each resource management and control data of the resource management and control end, and the qualification of the resource management and control end is verified based on the data type integrity and the data volume integrity, so that the qualification verification accuracy and reliability of the resource management and control end can be improved, and the metasource pool corresponding to the resource management and control end is established in the metasource pool based on each sub-resource management and control data, the data volume and the actual management and control scene corresponding to the resource management and control end, so that the establishing accuracy of the metasource pool of the resource management and control end can be improved, and the metasource pool completely identical to the actual scene of the resource management and control end is obtained, thereby providing the immersive browsing interaction experience for the resource demand end anywhere and anytime.

EXAMPLE five

Referring to fig. 5, fig. 5 is a schematic structural diagram of another source end of the meta universe according to an embodiment of the present invention. As shown in fig. 5, the metasource end may include:

a memory 401 storing executable program code;

a processor 402 coupled with the memory 401;

further, an input interface 403 and an output interface 404 coupled to the processor 402 may be included;

the processor 402 calls the executable program code stored in the memory 401 to execute part or all of the steps of the resource intelligent matching method based on the meta universe disclosed in the first embodiment or the second embodiment of the present invention.

EXAMPLE six

The embodiment of the invention discloses a computer storage medium, which stores computer instructions, and when the computer instructions are called, the computer storage medium is used for executing part or all of the steps of the intelligent resource matching method based on the metasma, which is disclosed by the first embodiment or the second embodiment of the invention.

The above-described embodiments of the apparatus are merely illustrative, and the modules described as separate components may or may not be physically separate, and the components shown as modules may or may not be physical modules, may be located in one place, or may be distributed on a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above detailed description of the embodiments, those skilled in the art will clearly understand that each embodiment may be implemented by software plus a necessary general hardware platform, and may also be implemented by hardware. With this understanding in mind, the above technical solutions may essentially or in part contribute to the prior art, be embodied in the form of a software product, which may be stored in a computer-readable storage medium, including a Read-Only Memory (ROM), a Random Access Memory (RAM), a Programmable Read-Only Memory (PROM), an Erasable Programmable Read-Only Memory (EPROM), a One-time Programmable Read-Only Memory (OTPROM), an electronically Erasable Programmable Read-Only Memory (EEPROM), an optical Disc-Read (CD-ROM) or other storage medium capable of storing data, a magnetic tape, or any other computer-readable medium capable of storing data.

Finally, it should be noted that: the resource intelligent matching method based on the metastic universe and the metastic universe system disclosed by the embodiment of the invention are only preferred embodiments of the invention, and are only used for explaining the technical scheme of the invention, but not limiting the technical scheme; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art; the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A resource intelligent matching method based on a metasma is applied to a metasma system, the metasma system comprises a metasma resource end, and the method comprises the following steps:

the meta-universe resource end detects a meta-universe resource requirement triggered by a resource requirement end, wherein the meta-universe resource requirement comprises identification information corresponding to the resource requirement end;

the meta-universe resource end determines a meta-universe image of a trigger corresponding to the meta-universe resource end in a meta-universe resource pool of the meta-universe resource end according to the identification information corresponding to the resource demand end;

the meta-universe resource end determines target resources required by the resource demand end according to the identification information corresponding to the resource demand end and the meta-universe portrait corresponding to the trigger;

the meta-universe resource source end selects a target resource provider matched with the target resource and meta-universe data of the target resource provider from all first resource providers of the meta-universe resource pool, and outputs the meta-universe data of the target resource provider to the trigger for the trigger to check and perform interactive operation with the target resource provider;

the system comprises a meta-universe resource pool, a plurality of first resource providing terminals and a plurality of second resource providing terminals, wherein the meta-universe resource pool stores a plurality of meta-universe images and meta-universe data of enterprises corresponding to the first resource providing terminals, and the meta-universe data of each first resource providing terminal comprises data corresponding to actual scene data of the first resource providing terminal one by one;

the method further comprises the following steps:

the method comprises the steps that a metasresource source end detects an establishment request triggered by at least one resource control end aiming at a metasresource pool, and the establishment request corresponding to each resource control end comprises a resource control element of the resource control end, an actual control scene corresponding to the resource control element of the resource control end and resource control data corresponding to the actual control scene;

aiming at any resource control end:

the metastic resource source end determines the data type of each sub-resource control data in the resource control data of the resource control end and the data volume of each sub-resource control data;

the metacavity resource end calculates the integrity of the data types of the resource control end according to the data types of all the sub-resource control data corresponding to the resource control end, and calculates the integrity of the data volumes of the resource control end according to the data volumes of all the sub-resource control data corresponding to the resource control end;

the resource management and control end judges whether the integrity of the data type of the resource management and control end is greater than or equal to a preset data type integrity threshold value or not and whether the integrity of the data volume of the resource management and control end is greater than or equal to a preset data volume integrity or not;

when the judgment result is yes, the metastic resource end establishes a metastic resource pool of the resource control end according to each sub-resource control data of the resource control end, the data type and the data volume of the resource control data, the resource control elements of the resource control end and the actual control scene corresponding to the resource control elements of the resource control end, and the metastic resource pool is used as the metastic resource pool of the metastic resource end;

and the meta-universe data of at least one resource providing end exists in the meta-universe resource pool of each resource control end.

2. The intelligent matching method for resources based on a metastic universe as recited in claim 1, further comprising:

the metasequology resource end receives an establishment request which is sent by at least one second resource providing end and aims at metasequology data of the metasequology resource end in the metasequology resource pool;

for any of the second resource providers:

the meta-universe resource end determines resource data of the second resource provider according to the establishment request of the second resource provider, wherein the resource data of the second resource provider comprises identification information corresponding to the second resource provider and/or resource provider data of the second resource provider;

the metastic universe resource source end screens a target metastic resource control end matched with the second resource providing end from the metastic universe resource control ends according to the resource data of the second resource providing end and the resource control data of each metastic universe resource control end in the metasuniverse resource pool, and sends a check prompt to the target metasuniverse resource control end, wherein the check prompt comprises the resource data of the second resource providing end and is used for prompting the target metasuniverse resource control end to check the resource data of the second resource providing end, and each metasuniverse resource control end has a unique corresponding actual resource control end;

when detecting that the resource data sent by the target metasource resource control terminal and used for representing the second resource provider passes verification, the metasource resource terminal determines actual scene data of the second resource provider, and generates metasource data corresponding to the actual scene data of the second resource provider one by one in the metasource pool according to the actual scene data of the second resource provider and the resource data of the second resource provider, wherein all the first resource providers include all the second resource providers.

3. The method according to claim 2, wherein the metastic resource source generates metastic data corresponding to the actual scene data of the second resource provider one-to-one in the metastic resource pool according to the actual scene data of the second resource provider and the resource data of the second resource provider, and the method comprises:

the meta-universe resource end performs sub-scene division on the actual scene data of the second resource providing end according to a scene function division mode to obtain a plurality of sub-actual scene data, and determines the resource type provided by the second resource providing end according to the resource data of the second resource providing end;

the meta-universe resource end establishes a three-dimensional model matched with the sub-actual scene data according to the resource type corresponding to the second resource provider, the sub-actual scene data and the function of the sub-actual scene data;

the meta-universe resource end determines the color condition of each piece of sub-actual scene data, and renders the three-dimensional model of the sub-actual scene data based on the color condition of each piece of sub-actual scene data to obtain a rendered three-dimensional model;

and the metastic resource source end determines the position of the second resource provider in the metastic resource pool according to the resource type provided by the second resource provider, and generates metastic data corresponding to the actual scene data of the second resource provider one by one according to the rendered three-dimensional model corresponding to each piece of sub-actual scene data, the position corresponding to the second resource provider and the resource data of the second resource provider.

4. A method for intelligent matching of resources based on a metastic universe as claimed in any one of claims 1 to 3, wherein the target resource includes a plurality of sub target resources, each of the sub target resources has at least one corresponding sub resource provider, and the target resource providers include all the sub resource providers;

and, the method further comprises:

the metaclass resource terminal determines the resource type of each sub-target resource and the requirement sequence of the sub-target resource according to the identification information corresponding to the resource requirement terminal;

the meta-universe resource terminal determines the output sequencing of the meta-universe data of all the child resource providing terminals corresponding to the child target resources according to the resource type and the requirement sequencing of each child target resource;

wherein the meta-universe resource side executes to output the meta-universe data of the target resource provider to the trigger for the trigger to view and execute interactive operation with the target resource provider, and the method comprises the following steps:

and the metastic resource source end sequentially executes and outputs metastic data of all the sub-resource providing ends corresponding to each sub-target resource to the trigger according to the output sequence corresponding to all the sub-target resources, so that the trigger can check the metastic data and execute interactive operation with all the sub-resource providing ends of the sub-target resources through the resource demand end, wherein the interactive operation corresponding to each sub-target resource comprises that the resource demand end detects that the trigger screens required sub-resource providing ends from all the sub-resource providing ends corresponding to the sub-target resources and/or controls metastic pictures corresponding to the trigger to be in the metastic resource pool, and screens required sub-resource providing ends from all the sub-resource providing ends corresponding to the sub-target resources.

5. The intelligent matching method for resources based on a metas system according to claim 4, wherein the metas system further comprises the resource demanding side and a plurality of resource providing sides; the method further comprises the following steps:

a target end determines a virtual model of an article required to be processed by the resource demand end and processing data of the article, wherein the target end comprises the meta universe resource end or the resource demand end;

when the trigger is detected to screen the required sub-resource providing terminals from all the sub-resource providing terminals corresponding to each sub-target resource, the target terminal screens the sub-resource providing terminal with the first order from all the required sub-resource providing terminals as the current sub-resource providing terminal according to the output order corresponding to all the sub-target resources, and sends the virtual model of the object required to be processed by the resource requiring terminal and the processing data of the object to the current sub-resource providing terminal so as to trigger the current sub-resource providing terminal to execute the operation matched with the resource type corresponding to the current sub-resource providing terminal on the virtual model of the object in the metasresource pool according to the processing data of the object, and determine the target virtual model of the object and the target processing data of the object after the operation is executed;

the target terminal updates the next sub-resource providing terminal to the current sub-resource providing terminal according to the output sequence corresponding to all the sub-target resources, updates the target virtual model of the article and the target processing data of the article to the virtual model of the article and the processing data of the article, re-executes the virtual model of the article and the processing data of the article required to be processed by the resource demand terminal to be sent to the current sub-resource providing terminal so as to trigger the current sub-resource providing terminal to execute the operation of matching the resource type corresponding to the current sub-resource providing terminal on the virtual model of the article in the metastic resource pool according to the processing data of the article, and determines the operation of executing the target virtual model of the article and the target processing data of the article until all the required sub-resource providing terminals finish the matching operation; or,

and the current sub-resource provider determines output sequences corresponding to all the sub-target resources, and selects a next sub-resource provider from all the sub-resource providers according to the output sequences corresponding to all the sub-target resources, and sends a target virtual model of the article and target processing data of the article to the next sub-resource provider so as to trigger the next sub-resource provider to execute a resource type matching operation corresponding to the next sub-resource provider on the target virtual model of the article in the metastic resource pool according to the target processing data of the article, and determine the target virtual model of the article and the target processing data of the article after executing the operation until all the required sub-resource providers finish the matching operation.

6. The method for intelligent matching of resources based on a metastic universe according to claim 5, further comprising:

after all the needed child resource providing terminals finish the matching operation, the last needed child resource providing terminal sends the obtained target virtual model of the article and the target processing data of the article to all other child resource providing terminals except the last needed child resource providing terminal in all the needed child resource providing terminals for the child resource providing terminal to update the meta-space data thereof, and sends the meta-space data to the target terminal for a trigger to view and/or store in a target mode.

7. The method of claim 1, 2, 3, 5, or 6, wherein the metasource side performs outputting the metasource data of the target resource provider to the trigger for the trigger to view and perform an interactive operation with the target resource provider, comprising:

the source resource end sends the source resource providing end to the source demand end for the trigger to check and interacts with the source resource providing end through the source demand end and a source resource pool of the source resource end; or the like, or a combination thereof,

and the source terminal displays the meta-universe data of the target resource providing terminal to the corresponding meta-universe image of the trigger in the meta-universe resource pool of the source terminal so that the resource requiring terminal controls the corresponding meta-universe image of the trigger to interact with the corresponding meta-universe image of the target resource providing terminal in the meta-universe resource pool of the source terminal.

8. The method of claim 7, wherein when the target resource comprises an item resource, the target resource provider's meta-universe data further comprises data of at least one target item matching a type of the item resource;

the resource demand end controls the meta cosmic picture corresponding to the trigger to interact with the meta cosmic picture of the target resource providing end in a meta cosmic resource pool of the meta cosmic resource end, and the method comprises the following steps:

the resource demand end controls the meta-universe images corresponding to the triggers to browse the data of each target article in a meta-universe resource pool of the meta-universe resource end, and screens the required target articles from all the target articles;

after the required target object is selected, the resource demand end controls the meta-cosmic image corresponding to the trigger to send a customization demand for the required target object to the meta-cosmic image of the target resource providing end so as to trigger the meta-cosmic image of the target resource providing end to send the customization demand to the target resource providing end, wherein the customization demand comprises data of the required target object.

9. A metasystem, the metasystem comprising a metasource source, the metasource source comprising:

the detection module is used for detecting a meta-universe resource requirement triggered by a resource requirement end, wherein the meta-universe resource requirement comprises identification information corresponding to the resource requirement end;

the determining module is used for determining the meta-universe portrait of the trigger corresponding to the meta-universe resource requirement in the meta-universe resource pool of the meta-universe resource source end according to the identification information corresponding to the resource requirement end;

the determining module is further configured to determine a target resource required by the resource requiring end according to the identification information corresponding to the resource requiring end and the meta-space portrait corresponding to the trigger;

the selecting module is used for selecting a target resource provider matched with the target resource and the meta-universe data of the target resource provider from all first resource providers of the meta-universe resource pool;

the execution module is used for executing the output of the meta-universe data of the target resource providing end to the trigger, so that the trigger can view the meta-universe data and perform interactive operation with the target resource providing end;

the system comprises a meta-universe resource pool, a plurality of first resource providing terminals and a plurality of second resource providing terminals, wherein the meta-universe resource pool stores a plurality of meta-universe images and meta-universe data of the first resource providing terminals, and the meta-universe data of each first resource providing terminal comprises data corresponding to actual scene data of the first resource providing terminal one by one;

the detection module is further configured to detect an establishment request triggered by at least one resource management and control end for the metacavity resource pool, where the establishment request corresponding to each resource management and control end includes a resource management and control element of the resource management and control end, an actual management and control scenario corresponding to the resource management and control element of the resource management and control end, and resource management and control data corresponding to the actual management and control scenario;

aiming at any resource control end:

the determining module is further configured to determine a data type of each sub-resource management and control data in the resource management and control data of the resource management and control end and a data amount of each sub-resource management and control data;

the source of meta universe resources further comprises:

the computing module is used for computing the data type integrity of the resource control end according to the data types of all the sub-resource control data corresponding to the resource control end, and computing the data volume integrity of the resource control end according to the data volume of all the sub-resource control data corresponding to the resource control end;

the judging module is used for judging whether the integrity of the data type of the resource control end is greater than or equal to a preset data type integrity threshold value or not and whether the integrity of the data volume of the resource control end is greater than or equal to a preset data volume integrity or not;

the establishing module is used for establishing a metasource pool of the resource control end as a metasource pool of the metasource source end according to each sub-resource control data of the resource control end, the data type and the data volume of the resource control data, the resource control elements of the resource control end and actual control scenes corresponding to the resource control elements of the resource control end when the judging result is yes;

and the resource management and control end is used for managing the resource management and control end, wherein the metastic data of at least one resource providing end exists in a metastic resource pool of each resource management and control end.

Images