CN115941759A - Kart simulation electronic competition man-machine interaction system based on metauniverse - Google Patents

Abstract

The invention provides a kart simulation electronic competition man-machine interaction system based on a metauniverse, wherein the interaction system operates based on a metauniverse network; the metastic network comprises at least one block chain running; meanwhile, the interactive system comprises a plurality of terminal servers, is used for providing the metastic operation and data service, is used as a node of the block chain and supports data storage, encryption and verification of the block chain; a user accesses the interactive system through a client; the interactive system acquires first data generated when a first user uses the virtual kart application program through the monitoring unit, so that a first ability value of the user is obtained through analysis, and the first data and the first ability value are stored in the block chain; the first user can disclose the first data and the first capacity value thereof in a paid disclosure mode; the second user can acquire the first data in a blockchain transaction mode and interact with the first user in a competition mode, so that the competition skill of the first user can be learned.

Description

Kart simulation electronic competition man-machine interaction system based on metauniverse

Technical Field

The invention relates to the technical field of electric digital data processing, in particular to a kart simulation electronic competition human-computer interaction system based on a metauniverse.

Background

The metastic technology is a virtual world which is linked and created by using technical means including virtual reality, a block chain, distributed computation and the like, is mapped and interacted with the real world, and is provided with a digital living space of a novel social system. The metauniverse provides immersive experience based on an augmented reality technology, images of the real world are generated based on a digital twin technology, an economic system is built based on a block chain technology, the virtual world and the real world are fused on the economic system, a social system and an identity system, and each user is allowed to perform content production and world editing.

At present, related industries based on the meta universe are rapidly developing, especially for amusement projects with extremely strong competitive performance such as kart competitions, the multi-scene rapid transformation, safe and vivid game effects can be realized through the meta universe technology, and the meta universe technology is currently paid much attention by related game developers.

According to the disclosed technical scheme, the technical scheme with the publication number of CN115311968A provides a metastic technology access cabin, and a metastic user can obtain a real environment for metastic application by arranging a plurality of projection devices and acoustic devices in the access cabin; the technical scheme of the publication number GB201906813D0 provides a combination scheme of a real world and a metauniverse virtual world, and a plurality of sensors are arranged on a real vehicle, so that a user can map the real vehicle to the metauniverse world through operation on the real vehicle and response of the vehicle, and combined application of two worlds is generated; the technical scheme of the publication number KR102466655B1 provides a metastic game service system, different game services are distributed to a plurality of service providers according to different attributes of a demand party, and meanwhile, a reward mechanism is designed to encourage the service providers to provide better services.

The technical schemes all refer to application schemes for the metastic game service; however, there are few studies related to improving the interaction effect between users and systems in the metastic game.

The foregoing discussion of the background art is intended only to facilitate an understanding of the present invention. This discussion is not an acknowledgement or admission that any of the material referred to is part of the common general knowledge.

Disclosure of Invention

The invention aims to provide a carting car simulation electronic competition human-computer interaction system based on a meta universe, wherein the interaction system operates based on a meta universe network; the metastic network comprises at least one block chain running; meanwhile, the interactive system comprises a plurality of terminal servers, is used for providing the metastic operation and data service, is used as a node of the block chain and supports data storage, encryption and verification of the block chain; a user accesses the interactive system through a client; the interactive system acquires first data generated when a first user uses the virtual kart application program through the monitoring unit, so that a first ability value of the user is obtained through analysis, and the first data and the first ability value are stored in the block chain; the first user can disclose the first data and the first ability value thereof in a paid disclosure mode; the second user can acquire the first data in a blockchain transaction mode and can match and interact with the first user, and therefore the match skills of the first user can be learned.

The invention adopts the following technical scheme:

a kart simulation electronic competition human-computer interaction system based on a meta universe, comprising:

one or more terminal servers, which are used as distributed operation nodes of the metastic network and provide metastic application services, including providing operation services and data application services of virtual kart application programs;

the client is in communication connection with the terminal server through a metastic network and performs data transmission, and hardware and software platform services of a virtual kart application program in a local access metastic network are provided for a user;

a metastic network, an internet-based distributed network, and having at least one blockchain running therein; the block chain utilizes the block chain technology node to carry out data verification and data storage, utilizes a distributed node consensus algorithm to generate and update data, utilizes a cryptology mode to ensure the safety of data transmission and access, and utilizes an intelligent contract composed of automatic script codes to automatically execute programs on the block chain;

the client comprises a first data set which is generated when a first user uses the virtual carting car application program and is recorded; analyzing the first data set by adopting an evaluation model so as to evaluate a first ability value of the driving ability of the first user;

and the client sends a first data set and a first capability value obtained by evaluation according to the first data set to the metasnetwork for saving, encryption and verification; the first user selecting to disclose all or part of the first data set and including selecting to disclose data for compensation by blockchain based transactions;

the second user obtains a first ability value of the first user by sending a data request to the metasety network; and performing a specified verification and transaction process, thereby obtaining a first data set; and the second user comprises a step of realizing synchronous or asynchronous competition with the first user by initiating game invitation to the first user so as to compare the competition result of the first user under the same or partially same competition conditions;

preferably, all the terminal servers participate in data verification in the blockchain as verification nodes in the metastic network; after partial users are verified by the metastic network, the used clients become verification nodes of the block chain to participate in data verification on the chain;

preferably, the client acquires the evaluation model after verification from the metasety network so as to ensure the consistency and reliability of the evaluation model in the whole network;

preferably, the deployment mode of the virtual carting car application program includes that all source codes of the application program are stored in the terminal server; the user is connected to the terminal server through the client, and reads and calls the source code of the virtual carting car application program;

further, the monitoring module comprises:

(1) Monitoring an input of the input module;

(2) After the monitoring output module outputs the specific data, the user and the vehicle respond to the specific data;

the monitoring module submits the data obtained by monitoring to a processor, and the processor generates the first data set;

preferably, the first user comprises dividing the subset of the first data set according to:

(1) The type of carting car;

(2) A designated partial or whole race segment;

(3) Segment achievements or total achievements of the race segments;

setting a base price for the whole of the first data set or one or more subsets of the first data set by the first user;

preferably, the client of the second user includes recording a second data set generated when the second user uses the virtual carting car application; analyzing the second data set using the assessment model, including performing a comparative analysis with the specified first data set;

preferably, the interactive system comprises comparing against the second data set based on a specified subset of the first data set; returning part of the fee paid by the second user to the first user according to the comparison result;

preferably, the interactive system comprises making a paid payment for the first data set using blockchain tokens or digital currency;

preferably, the client includes:

the processor is used for controlling, monitoring and processing all operations of the client;

a monitoring module, comprising:

the vehicle monitoring module is used for monitoring the running data of at least one kart in the competition process; and

the user monitoring module is used for monitoring operation data and state data of a user in a competition process;

the communication module is used for realizing the communication among all modules of the client;

an input module: the system comprises a client and a server, wherein the client is used for acquiring and processing input operation of a user on the client;

an output module: for providing the output information of the client to the user.

The beneficial effects obtained by the invention are as follows:

1. the interactive system can comprehensively analyze and evaluate the running data of the racing cars and the state performance of the users in the competition by monitoring a plurality of data of the first user and the used racing cars when the users perform kart competition in the metauniverse environment, thereby objectively evaluating the driving skills of the users, classifying according to the characteristics of the first user and enabling the second user to purposefully screen the first user for learning;

2. the interactive system of the invention utilizes the block chain to store and verify the generated first data of the first user, so that other users including the first user cannot tamper and acquire the first data privately, thereby effectively protecting the security of the first data and the rights and interests of the first user;

3. the interactive system can utilize the characteristics of the metastic system to divide and screen the first data according to the types of carting cars, the appointed competition segments or the appointed competition scores, and the first user can price each subset of the divided first data independently, so that the transaction of the first data is more in line with the fairness principle, and the personalized requirements of the second user can be more met;

4. the interactive system adopts a modularized design in the combination scheme of software and hardware, can be conveniently replaced or upgraded in the future, and effectively reduces the use cost.

Drawings

The invention will be further understood from the following description in conjunction with the accompanying drawings. The components in the figures are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the embodiments. Like reference numerals designate corresponding parts throughout the different views.

FIG. 1 is a schematic diagram of an interactive system according to the present invention;

FIG. 2 is a schematic diagram of processing user-generated data and evaluating the same in an embodiment of the present invention;

FIG. 3 is a schematic diagram of a monitoring module for data monitoring according to an embodiment of the present invention;

FIG. 4 is a diagram illustrating an evaluation model according to an embodiment of the present invention.

The reference numbers illustrate:

10-a terminal server; 20-a client; 100-member universe network; 101-block chain; 210 — an evaluation model; 220-reaction capability assessment model; 221-identifying an evaluation submodel; 222-reaction assessment submodel; 223-a physical assessment submodel; 230-control ability assessment model; 231-first direction evaluation submodel; 232-second direction evaluation submodel.

Detailed Description

In order to make the technical solution and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the embodiments thereof; it should be understood that the specific embodiments described herein are merely illustrative of the invention and do not limit the invention. Other systems, methods, and/or features of the present embodiments will become apparent to one with skill in the art upon examination of the following detailed description. It is intended that all such additional systems, methods, features and advantages be included within this description, be within the scope of the invention, and be protected by the accompanying claims. Additional features of the disclosed embodiments are described in, and will be apparent from, the detailed description that follows.

The same or similar reference numerals in the drawings of the embodiments of the present invention correspond to the same or similar components; in the description of the present invention, it is to be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not intended to indicate or imply that the device or assembly referred to must have a specific orientation.

The first embodiment is as follows:

as shown in fig. 1, a kart simulation electronic competition human-computer interaction system based on a meta universe includes:

one or more terminal servers 10 (designated 10a, 10b in the figures); the distributed operation node is used as a metasma network and provides metasma application services, including operation services and data application services of virtual kart application programs;

a client 20 (20 a, 20b, 20c in the figures) communicatively connected to the terminal server 10 through a metasetmane network and performing data transmission, and providing hardware and software platform services for a user to perform a virtual kart application in a local access metasetmane network;

a metastic network 100, an internet-based distributed network, and having at least one blockchain 101 running therein; the block chain 101 performs data verification and data storage by using a block chain technology, generates and updates data by using a distributed node consensus algorithm, ensures the safety of data transmission and access by using a cryptology mode, and automatically executes programs on the block chain by using an intelligent contract consisting of automatic script codes;

as shown in fig. 2, the client 20 includes recording data generated by a first user using the virtual carting car application to form a first data set; and analyzing the first data set using an evaluation model to evaluate a first ability value of the first user's driving ability; analyzing the first data set by adopting an evaluation model so as to evaluate a first ability value of the driving ability of the first user;

and, the client 20 includes sending a first data set and a first capability value evaluated from the first data set to the metasystem network 100 for saving, encryption, and verification; the first user selecting to disclose the first data set in whole or in part, and including selecting to disclose data for compensation by blockchain based transactions;

the second user obtains a first ability value of the first user by sending a data request to the meta universe network 100; and performing a specified verification and transaction process, thereby obtaining a first data set; and the second user comprises a step of realizing synchronous or asynchronous competition with the first user by initiating game invitation to the first user, so as to compare competition results of the first user under the same or partially same competition conditions;

preferably, all of the terminal servers 10 participate in data validation in the blockchain 101 as validation nodes in the metastic network 100; after some users are verified by the metastic network 100, the used client 20 becomes a verification node of the blockchain 101 to participate in the on-chain data verification;

preferably, the deployment mode of the virtual carting car application program includes that all source codes of the application program are stored in the terminal server 10; the user is connected to the terminal server 10 through the client 20, reads and calls the source code of the virtual carting car application program, and uses the local;

preferably, the client 20 includes:

a processor for controlling, monitoring and processing all operations of the client 20;

a monitoring module, comprising:

the vehicle monitoring submodule is used for monitoring vehicle operation data of at least one kart in the competition process; and

the user monitoring submodule is used for monitoring driving data of a user in a competition process, and the driving data comprises user operation data and user state data;

the communication module is used for realizing the communication among all modules of the computer;

an input module: the system is used for acquiring and processing input operation of a user to the computer;

an output module: for providing output information of client 20 to user

Further, the monitoring module comprises:

(1) Monitoring an input of the input module;

(2) After the monitoring output module outputs the specific data, the user and the vehicle respond to the specific data;

the monitoring module submits data acquired by monitoring to a processor, and the processor generates the first data set;

preferably, the client 20 acquires the evaluation model after verification from the metasnetwork 100 to ensure consistency and reliability of the evaluation model in the whole network;

preferably, the first user comprises dividing the subset of the first data set according to:

(1) The type of carting car;

(2) A designated partial or full race segment;

(3) Segment achievements or total achievements of the race segments;

setting a base price for the whole of the first data set or one or more subsets of the first data set by the first user;

preferably, the second user's client 20 includes recording a second data set generated when the second user uses the virtual carting car application; analyzing the second data set using the assessment model, including performing a comparative analysis with the specified first data set;

preferably, the interactive system comprises performing a comparison with the second data set based on a specified subset of the first data set; returning part of the fee paid by the second user to the first user according to the comparison result;

preferably, the interactive system comprises making a paid payment for the first data set using blockchain tokens or digital currency;

in a specific embodiment, a metauniverse technology based virtual carting car application stores and provides data about carting car racing tracks and visualizes them for application to a virtual carting car race; the track data includes road information for racing, and may also include related information of objects around the track, such as street lamps, signs, and landscape;

the track comprises a system preset track and a user-defined track associated with the user;

the system preset track refers to a default track pre-stored in a system database, and may be known track of each known track in the real world, track of a conventional route (such as a conventional circle track, a wedge track, and the like), or track formed by a common road; the system preset track may also refer to virtual track data generated by other systems or software according to track information obtained by scanning through an external computing device; understandably, the terminal server 10 can reserve an external port to introduce more preset tracks through the external port, rather than only using the limitations of the tracks already stored in the terminal server 10;

further, the user-defined track is a track formed by a user after the user collects and converts the preset track of the system in the game process; the user-defined track is imported and stored into the metasystem database, can be associated with a user, and limits the use permission of the user-defined track, for example, only the user who creates the user-defined track is allowed to use the user or a plurality of other users are designated to use the user, but the user cannot be used by other users; however, in some embodiments, the user may also send the customized track created by the user to the pre-defined meta-universe network 100 for sharing to other users (which is convenient for implementing a multi-player racing competition on the customized track); furthermore, when the user shares the customized track, the user may select a sharing object, for example, the user may select to share the object to all users, some users, or a specific user; on the other hand, other users can also use or even further modify the custom track by applying for the authority of the custom track to the creation user of the custom track;

in some embodiments, the system-preset track may be used by all users, and of course, a level authority may also be set for the system-preset track, at this time, part of the system-preset track may be used by all users, and part of the system-preset track may only be used by users having a specific authority; for example, the registered user may use a self-defined track generated by the registered user and a part or all of the system preset tracks; the non-registered user can only use part or all of the system to preset the track;

furthermore, the preset track and the user-defined track of the system can be divided into a plurality of track segments by a metasystem manager or only according to the idea of a user according to the characteristics of the track;

for example, in some embodiments, each 100 meters track is divided into one track segment;

in some embodiments, each curve is set to divide the track from the front 30 meters to the back 30 meters away from the curve into one track segment;

in some embodiments, specific track portions are provided, such as a continuous curved track as a track segment;

the longer track is divided into a plurality of subsections by different divisions of the track; correspondingly, the vehicle running data and the driving data of the racing vehicles driven by the users in the racing periods can be clearly divided; this section will be described later;

furthermore, the kart racing car adopted in the competition has the vehicle configuration attributes of the kart racing car, and the attributes can influence the achievement of the competition and the performances on different tracks and racing sections; the vehicle configuration attributes of the racing vehicles comprise vehicle appearance and structure data such as vehicle types and colors, and configuration parameters of vehicle suspensions, steering, braking, aerodynamic suites and the like; understandably, the vehicle configuration attribute can be selected according to the actual compatible vehicle configuration of the racing car so as to improve the authenticity of the racing process; the vehicle configuration information can be updated in the game process so as to adapt to different user operation styles and personal preferences, or can be adjusted according to the track characteristics;

furthermore, in the process of the virtual game when the user drives the racing car, corresponding operation and driving instructions are implemented based on the vehicle configuration attribute of the racing car and the progress of the track;

in some embodiments, the dynamic parameters of the vehicle are determined according to the configuration attributes of the vehicle, and the dynamic performance of the vehicle can be calculated according to the dynamic parameters and then presented on a game interface of the racing game system; the dynamic parameters of the racing cars and the calculation mode of the dynamic performance of the racing cars are set objectively and in detail as much as possible, so that the authenticity of the racing cars is presented, the basic parameters of all the racing cars are not only set partially differently, but only the homogeneous racing car performance is presented, and the problem that the motion of the racing cars is completely not in accordance with the dynamic principle of the racing cars due to the fact that the pictures are pursued to be cool is avoided;

in some embodiments, the dynamic parameters include actual motion parameters such as tires, engines, transmissions, suspensions, aerodynamic kits, steering and braking, and according to the dynamic parameters, track information and vehicle configuration information, dynamic load simulation can be realized for vehicle motion, the simulation effect of racing cars in the motion process is improved, and the authenticity of the racing car game process is ensured; specifically, under the condition that dynamic parameters, track information and vehicle configuration attributes required by the whole vehicle motion of the racing vehicle are determined, that is, parameters such as speed, acceleration, accelerator pedal opening, brake pedal opening, steering wheel angle, engine speed, road adhesion and vehicle running state obtained at a certain moment are determined in real time, the parameters can be used for determining the motion (or acceleration, or deceleration, or steering, or side turning, or side sliding and the like) of the racing vehicle at the next moment, and the motion process is dynamically and really presented on the virtual track in the game picture; meanwhile, under the principle of continuity of the operation of the user, in the same operation, the racing cars with the same attribute should show consistent or reproducible performance, rather than showing fluctuating performance under the same operation for multiple times; thus, the consistency of the game is lost, and other users cannot reproduce the driving performance of the first user;

further, the vehicle monitoring submodule in the monitoring module is used for recording vehicle operation data at any time in the process of racing; the vehicle operating data includes the vehicle configuration attributes, dynamics parameters, and dynamics performance described above;

the vehicle operation data can be marked, inquired and positioned through the inquiry keyword; the query keyword may be a time keyword (driving data corresponding to the time keyword may be determined after matching with driving time and racing time), a race segment keyword (driving data corresponding to a race segment or race segment keyword may be determined after matching with race segment or race segment information), a vehicle keyword (driving data corresponding to a vehicle keyword may be determined after matching with vehicle data and vehicle configuration information), and the like; vehicle operating data forming part of the first set of data; the vehicle operation data will facilitate the user to review all performance and status of the race car during the race to further analyze the status of the race car and to find vehicle factors that affect the race performance.

Example two:

this embodiment should be understood to include at least all of the features of any of the embodiments described above and further refinements thereto:

in addition to the racing car itself, another aspect of the racing car game is that a user is used as a main body of operation, and a series of operations are performed on the racing car, so that the vehicle is controlled to play a race; therefore, it is necessary to collect detailed data of the user when playing the racing game;

the data presented by the user comprises the adaptive control of the racing car according to different racing periods and vehicle states so as to improve the competition result as much as possible; meanwhile, the physical state, the mental state and the like of the user also need to be monitored so as to analyze the physical ability of the user under the non-conscious control;

therefore, for the user monitoring sub-module, driving data of the user in the competition process needs to be monitored, wherein the driving data comprises operation data of the user and state data of the user;

in some embodiments, the sensory ability data of the user is obtained by measuring the behavioral response of the user to various informative, warning information about the vehicle appearing in the display interface; the method comprises the steps of collecting the gazing direction and the head position of a user by using an eye tracker, and collecting face, head and gazing direction data of the user by using an image sensor so as to capture the identification capability data of the user for different information in the operation process and the continuous state of the data;

in some embodiments, the method includes monitoring data of the user to make a specific reaction action after identifying the information; such as reaction time to recognize an obstacle to achieve braking and degree of braking; or reaction time of the swing steering wheel extracted when stalling occurs in a sharp bend and corresponding swing angle, and data of a plurality of operations of the operation of matching of an accelerator and a brake;

in some embodiments, the method includes monitoring the physical state of the user, such as the reaction condition when the user is subjected to off-site interference (e.g. noise, flash, explosion), including data such as pulse, blood pressure, respiratory rate, etc.;

further, relevant driving data of the user on the control capability of the vehicle is included;

the control system comprises the control capability of a first direction and a second direction of a vehicle; the first direction is set as a control capability of the vehicle in a forward (backward) direction, i.e., a longitudinal motion, such as accelerator-on acceleration, braking, etc.; the second direction is set as the control capability for the vehicle in the lateral direction, that is, the control capability for the vehicle to move left and right;

namely, the compound movement, such as the operation of overtaking, is divided into the acceleration in the first direction and the transverse operation in the second direction, so that the relevant data of the user on the control vehicle can be recorded more finely, and more comprehensive data analysis can be realized;

as shown in fig. 3, the first data set may be generated based on the above records of driving data in combination with vehicle operation data; comprehensively analyzing the first data set, and analyzing the driving capacity of the user through the evaluation model so as to obtain the first capacity value;

in some embodiments, the evaluation model used is as shown in FIG. 4;

the evaluation model includes a reaction capability evaluation model 220 and a control capability evaluation model 230;

wherein the reaction capability evaluation model comprises the following steps: identifying an evaluation submodel 221, a reaction evaluation submodel 222, and a body evaluation submodel 223;

the control capability evaluation model 230 includes: a first direction evaluation submodel 231 and a second direction evaluation submodel 232;

through the arrangement of the evaluation model, the first data set of the first user is subjected to multi-dimensional evaluation, so that the driving capacity of the first user is quantitatively described, and the method can be used for other users to inquire, search, compare and learn.

Example three: this embodiment should be understood to include at least all of the features of any of the embodiments described above and further refinements thereto:

after the first data set and the first capacity value of the first user are generated, a client used by the first user is uploaded to a block chain 101 in the metasety network; wherein the first data set submitted is verified for authenticity with a first capability value; a plurality of terminal servers need to be used as verification nodes to verify the uploaded first data set and the first capacity value;

in some embodiments, the first user needs to perform authentication in the management node of the blockchain 101 and obtain a public key and a private key; the public key is disclosed to all nodes in the block chain 101, and the private key is kept private by the first user;

when a first user uploads a first data set and a first capacity value, the data is encrypted through a private key of the first user, and the encrypted data is uploaded to the block chain 101 after digital signature; the verification node decrypts and verifies the encrypted data of the first user by adopting the public key of the first user so as to ensure the identity of the first user;

further, the first user comprises an evaluation model used for evaluating the first capacity value to submit verification so as to ensure that the evaluation model adopted by the first user is a legal evaluation model;

further, after the verification of the block chain 101 is successfully obtained by the first data set and the first capability value, the data is written into the block data of the block chain 101; the first user can mark data values of a plurality of subsets in the first data set at the same time, and establish corresponding intelligent contracts for subsequent further data exchange and data public sharing;

further, when a second user has a match or refers to match data of other users, the second user can apply for searching related interested data and call the interested data from the blockchain 101;

at this time, the second user includes the legal identity that needs to be verified in the metasety network;

the second user puts forward a search requirement to the terminal server according to the interest points and the keywords; the interest points and keywords comprise the time keywords, the race segment keywords or the vehicle keywords, and can further comprise race segment achievements, user characteristics and the like, so that the search is initiated;

the terminal server responds to the search requirement of the second user and searches the data; wherein, the method comprises searching data in the block chain 101;

in some embodiments, based on the efficiency principle, when data is written into the blockchain 101, an index is established for the data in the blockchain 101, and the index is coarsely searched to accelerate the acquisition of the search result;

further, the second user confirms the data of the first data set or the subset thereof to be called through the search result; the intelligent contract in the block chain 101 responds to the calling requirement of the second user, and the second user is required to carry out related payment to obtain the calling permission of the data;

through the above arrangement, the first user as a data provider obtains a large amount of data analysis from the metasequoiy network, and due to the value reward, the game enthusiasm of the user is obviously improved to create more excellent game achievement; the evaluation model in the meta-universe network helps the user to screen valuable competition data for the user to learn and improve competition skills, so that the overall development of the whole electronic competition community is promoted.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to the related descriptions of other embodiments for parts that are not described or illustrated in a certain embodiment.

Although the invention has been described above with reference to various embodiments, it should be understood that many changes and modifications may be made without departing from the scope of the invention. That is, the methods, systems, and devices discussed above are examples. Various configurations may omit, substitute, or add various procedures or components as appropriate. For example, in alternative configurations, the methods may be performed in an order different than that described, and/or various components may be added, omitted, and/or combined. Moreover, features described with respect to certain configurations may be combined in various other configurations, as different aspects and elements of the configurations may be combined in a similar manner. Further, elements therein may be updated as technology evolves, i.e., many elements are examples and do not limit the scope of the disclosure or claims.

Specific details are given in the description to provide a thorough understanding of the exemplary configurations including implementations. However, configurations may be practiced without these specific details, for example, well-known circuits, processes, algorithms, structures, and techniques have been shown without unnecessary detail in order to avoid obscuring the configurations. This description provides example configurations only, and does not limit the scope, applicability, or configuration of the claims. Rather, the foregoing description of the configurations will provide those skilled in the art with an enabling description for implementing the described techniques. Various changes may be made in the function and arrangement of elements without departing from the spirit or scope of the disclosure.

In conclusion, it is intended that the foregoing detailed description be regarded as illustrative rather than limiting, and that it be understood that it is illustrative only and is not intended to limit the scope of the invention. After reading the description of the invention, the skilled person can make various changes or modifications to the invention, and these equivalent changes and modifications also fall into the scope of the invention defined by the claims.

Claims (10)

1. A kart simulation electronic competition human-computer interaction system based on a meta universe is characterized by comprising:

one or more terminal servers, which are used as distributed operation nodes of the metastic network and provide metastic application services, including providing operation services and data application services of virtual kart application programs;

the client is in communication connection with the terminal server through a meta-universe network and performs data transmission, and hardware and software platform services of the virtual kart application program in the local access meta-universe network are provided for a user;

a metastic network, an internet-based distributed network, and having at least one blockchain running therein; the block chain carries out data verification and data storage by using a block chain technology, generates and updates data by using a distributed node consensus algorithm, ensures the safety of data transmission and access by using a cryptology mode, and automatically executes programs on the block chain by using an intelligent contract consisting of automatic script codes;

the client side records data generated when a first user uses the virtual carting car application program to form a first data set; analyzing the first data set by adopting an evaluation model so as to evaluate a first ability value of the driving ability of the first user;

and the client sends a first data set and a first capability value obtained by evaluation according to the first data set to the metasnetwork for saving, encryption and verification; the first user selecting to disclose the first data set in whole or in part, and including selecting to disclose data for compensation by blockchain based transactions;

the second user obtains a first ability value of the first user by sending a data request to the metasety network; and performing a specified verification and transaction process, thereby obtaining a first data set; and the second user comprises a means for implementing a synchronous or asynchronous tournament with the first user by initiating a gaming invitation to the first user to compare the tournament performance of the first user under the same or partially same tournament conditions.

2. The interactive system of claim 1, wherein all of the terminal servers participate in data validation in a blockchain as validation nodes in a metastic network; after some users are verified by the metastic network, the used client becomes a verification node of the block chain to participate in the data verification on the chain.

3. The interactive system of claim 2, wherein the virtual carting car application is deployed in a manner that includes storing all source code of the application in the terminal server; and the user is connected to the terminal server through the client, and reads and calls the source code of the virtual carting car application program.

4. The interactive system of claim 3, wherein the client comprises:

the processor is used for controlling, monitoring and processing all operations of the client;

a monitoring module, comprising:

the vehicle monitoring submodule is used for monitoring vehicle operation data of at least one kart in the competition process; and

the user monitoring sub-module is used for monitoring driving data of a user in a competition process, and the driving data comprises user operation data and user state data;

the communication module is used for realizing the communication among the modules of the client;

an input module: the system comprises a client and a server, wherein the client is used for acquiring and processing input operation of a user on the client;

an output module: for providing the output information of the client to a user.

5. The interactive system of claim 4, wherein the monitoring module comprises:

(1) Monitoring an input of the input module;

(2) After the monitoring output module outputs specific data, the user and the vehicle respond to the specific data;

the monitoring module submits data obtained by monitoring to the processor, and the processor generates the first data set.

6. The interactive system of claim 5, wherein the first user comprises partitioning the subset of the first data set according to:

(1) The type of carting car;

(2) A designated partial or whole race segment;

(3) The segment score or total score of the race segment;

the first user sets a base price for the entirety of the first data set or one or more subsets thereof.

7. The interactive system of claim 6, wherein the client comprises obtaining the validated evaluation model from the metasety network to ensure consistency and reliability of the evaluation model across the network.

8. The interactive system of claim 7, wherein the client of the second user includes recording a second data set generated when the second user uses the virtual carting car application; the second data set is analyzed using the assessment model, including a comparative analysis with the specified first data set.

9. The interactive system of claim 8, wherein the interactive system includes comparing against a second data set based on a specified subset of the first data set; and returning part of the fee paid by the second user to the first user according to the comparison result.

10. The interactive system of claim 9, wherein the interactive system comprises making a paid payment for the first data set using blockchain tokens or digital currency.

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