CN113573382A - Electronic contest data processing method and device, computer equipment and storage medium - Google Patents

Abstract

The embodiment of the application discloses a method and a device for processing electronic contest data, computer equipment and a storage medium, wherein the method comprises the following steps: receiving electronic competition service data which is sent by an electronic competition client and carries access identification information; the base station comprises a baseband processing unit with a data distribution function; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area; acquiring service routing information of a baseband processing unit, and searching service routing information which is the same as the access identification information in the service routing information; when the service routing information identical to the access identification information is found, the electricity competition service data is sent to the local electricity competition server corresponding to the access identification information based on the first network connection relation, so that the electricity competition server obtains electricity competition response data of the electricity competition service based on the electricity competition service data. By adopting the embodiment of the application, the low delay and the stability during execution of the electronic competition service can be effectively ensured.

Description

Electronic contest data processing method and device, computer equipment and storage medium

Technical Field

The present application relates to the field of computer technologies, and in particular, to a method and an apparatus for processing data of a power race, a computer device, and a storage medium.

Background

With the rapid development of the electronic competition industry, more and more places need to build an electronic competition venue for executing electronic competition services, and games are slowly converted from computer games to mobile phone end games. It is understood that, in order to reduce the interference caused by using a wireless Communication Technology (e.g., Wi-Fi) in the Mobile phone end game, a fifth Generation Mobile Communication Technology (5G) scheme may be adopted as an access means for performing the electronic competition service.

In a conventional 5G scheme (e.g., a 5G private network scheme), a User Plane Function (UPF) network element in a 5G core network has an effect of implementing UPF local offloading, that is, after a mobile phone end game executes the electronic race service, the generated electronic race service data may be pushed to a corresponding electronic race server through the UPF network element. However, in the data transmission process of the electronic competition service data, the UPF network element further needs a certain data processing time and a corresponding transmission process to perform data interaction and verification with other network elements in the 5G core network, for example, the UPF network element may interact with a Session Management Function (SMF) network element, so that a certain loss is caused to the time delay, and a higher delay will exist in the execution process of the electronic competition service. In addition, as the 5G private network belongs to an emerging technology, some abnormal situations are likely to occur, so that the 5G core network in the 5G private network is abnormal, and thus the executing electric competition service may not be transmitted to the corresponding electric competition server, thereby interrupting the electric competition service and reducing the stability when the electric competition service is executed.

Disclosure of Invention

The embodiment of the application provides a method and a device for processing electronic contest data, computer equipment and a storage medium, which can effectively ensure low delay and stability when electronic contest services are executed.

An aspect of the present application provides a data processing method for a power race, where the method is executed by a base station deployed in a 5G private network, and includes:

receiving electronic competition service data which is sent by an electronic competition client and carries access identification information; the electronic competition service data is generated by the electronic competition client when the electronic competition service is executed; the base station comprises a baseband processing unit with a data distribution function; the baseband processing unit has a first network connection relation with a local electric competition server corresponding to the electric competition service; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area;

acquiring service routing information of a baseband processing unit, and searching service routing information which is the same as the access identification information in the service routing information;

when the service routing information identical to the access identification information is found, the electricity competition service data is sent to the local electricity competition server corresponding to the access identification information based on the first network connection relation, so that the electricity competition server obtains electricity competition response data of the electricity competition service based on the electricity competition service data.

An aspect of the present application provides a data processing method for electronic contests, where the method is executed by a local electronic contest server deployed in a 5G private network, and includes:

receiving the electronic contest service data sent by a baseband processing unit with a data distribution function based on the first network connection relation; the baseband processing unit is deployed in a base station of the 5G private network; the electronic competition service data is generated by the electronic competition client when the electronic competition service is executed; the electronic contest service data carries access identification information; the access identification information is used for indicating the base station to search in the service routing information of the baseband processing unit; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area;

obtaining the electricity competition response data of the electricity competition service based on the electricity competition service data;

and returning the electricity competition response data to the electricity competition terminal through the base station so that the electricity competition terminal outputs an image frame corresponding to the electricity competition response data.

An aspect of an embodiment of the present application provides a data processing apparatus for electronic contests, including:

the data receiving module is used for receiving the electricity competition service data which is sent by the electricity competition client and carries the access identification information; the electronic competition service data is generated by the electronic competition client when the electronic competition service is executed; the base station comprises a baseband processing unit with a data distribution function; the baseband processing unit has a first network connection relation with a local electric competition server corresponding to the electric competition service; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area;

the searching module is used for acquiring the service routing information of the baseband processing unit and searching the service routing information which is the same as the access identification information in the service routing information;

and the data sending module is used for sending the electricity competition service data to the local electricity competition server corresponding to the access identification information based on the first network connection relation when the service routing information identical to the access identification information is found, so that the electricity competition response data of the electricity competition service can be obtained by the local electricity competition server based on the electricity competition service data.

The base station comprises a 5G remote unit, a 5G expansion unit and a baseband processing unit; the 5G remote unit is used for communicating with the electronic competition terminal and communicating with the 5G expansion unit;

the data receiving module includes:

the data receiving unit is used for receiving the electricity competition service data which is sent by the electricity competition client and carries the access identification information through the 5G remote unit, and forwarding the electricity competition service data which carries the access identification information to the 5G expansion unit;

and the data forwarding unit is used for forwarding the electronic competition service data carrying the access identification information to the baseband processing unit through the 5G expansion unit.

Wherein, the device still includes:

and the data filtering module is used for filtering the electronic contest service data when the service routing information which is the same as the access identification information is not found.

The 5G private network comprises a 5G core network and a management terminal; the 5G core network and the baseband processing unit have a second network connection relation;

the device also includes:

the first information receiving module is used for receiving first setting information sent by the management terminal; the first setting information is determined after a management user corresponding to the management terminal sets a network element in the 5G core network on the first network management platform;

and the first information forwarding module is used for forwarding the first setting information to the 5G core network through the baseband processing unit and the second network connection relation, so that the 5G core network stores the first setting information.

The 5G core network comprises a first functional network element, a second functional network element and a third functional network element; the first functional network element is used for realizing access and mobility management functions; the second functional network element is used for realizing a session management function; the third functional network element is used for realizing a unified data management function;

the first information forwarding module is further configured to:

the information forwarding unit is used for forwarding the first setting information to the first functional network element through the baseband processing unit and the second network connection relation, so that the first functional network element forwards the first setting information to the second functional network element; the second functional network element is configured to store the first setting information to the third functional network element.

Wherein, the device still includes:

the request receiving module is used for receiving a card opening request sent by the management terminal; the card opening request carries card information of the electronic card to be opened;

the request forwarding module is used for forwarding the card opening request to the first functional network element through the baseband processing unit and the second network connection relation, so that the first functional network element forwards the card opening request to the second functional network element; the second functional network element is used for authenticating the card opening request based on the first setting information and the card information, and storing the card information to the third functional network element when the authentication is successful; the card information stored in the third functional network element is card information corresponding to the electronic competition card used by the electronic competition terminal.

Wherein, the device still includes:

the second information receiving module is used for receiving second setting information sent by the management terminal; the second setting information is determined after the management user performs the distribution configuration on the second network management platform aiming at the base station; the second network management platform is different from the first network management platform;

the second information forwarding module is used for forwarding the second setting information to the 5G core network through the baseband processing unit and the second network connection relation, so that the 5G core network stores the second setting information; the second setting information includes traffic routing information of the baseband processing unit.

The 5G private network comprises N electronic competition terminals; n is a positive integer; the N electric competition terminals comprise a first electric competition terminal belonging to the first electric competition camp and a second electric competition terminal belonging to the second electric competition camp; the first electricity competition camp and the second electricity competition camp belong to different electricity competition camps.

The number of the 5G remote units in the base station is M, and M is a positive integer; each 5G remote unit in the M5G remote units is used for receiving service data information; the service data information comprises first service data information and second service data information; the first service data information is sent by a management terminal in the 5G private network; the second service data information is transmitted by the electronic contest terminal.

The number of the 5G extension units and the number of the baseband processing units in the base station are both 1, and the 5G extension units are used for communicating with the M5G remote units and communicating with the baseband processing units; and the 5G extension unit is used for integrating the service data information.

An aspect of an embodiment of the present application provides a data processing apparatus for electronic contests, including:

the service data receiving module is used for receiving the electronic contest service data sent by the baseband processing unit with the data distribution function based on the first network connection relation; the baseband processing unit is deployed in a base station of the 5G private network; the electronic competition service data is generated by the electronic competition client when the electronic competition service is executed; the electronic contest service data carries access identification information; the access identification information is used for indicating the base station to search in the service routing information of the baseband processing unit; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area;

the response data determining module is used for obtaining the electricity competition response data of the electricity competition service based on the electricity competition service data;

and the response data returning module is used for returning the electric competition response data to the electric competition terminal through the base station so that the electric competition terminal outputs an image frame corresponding to the electric competition response data.

An aspect of an embodiment of the present application provides a computer device, including: a processor and a memory;

the processor is connected with the memory, wherein the memory is used for storing a computer program, and the computer program causes the computer device to execute the method provided by the embodiment of the application when being executed by the processor.

An aspect of the embodiments of the present application provides a computer-readable storage medium, which stores a computer program, where the computer program is adapted to be loaded and executed by a processor, so as to enable a computer device having the processor to execute the method provided by the embodiments of the present application.

An aspect of an embodiment of the present application provides a computer program product or a computer program, which includes computer instructions stored in a computer-readable storage medium. The processor of the computer device reads the computer instructions from the computer-readable storage medium, and the processor executes the computer instructions to cause the computer device to execute the method provided by the embodiment of the application.

In this embodiment of the present application, when a base station in a 5G private network acquires electronic competition service data carrying access identification information generated by an electronic competition terminal, service routing information of a baseband processing unit in the base station may be acquired, and then service routing information that is the same as the access identification information may be searched in the service routing information of the baseband processing unit. It can be understood that, when the service routing information identical to the access identification information is found, the base station may rapidly send the electronic competition service data to the local electronic competition server corresponding to the access identification information through the data splitting function of the baseband processing unit, without sending the electronic competition service data to the 5G core network in the 5G private network, and then send the electronic competition service data to the local electronic competition server through the UPF network element in the 5G core network, so that the data processing time of the electronic competition service data in the 5G core network can be effectively reduced, the transmission efficiency of the electronic competition service data is further improved, and the delay of the electronic competition service is reduced. In addition, because the base station in the 5G private network can directly send the electricity competition service data to the local electricity competition server corresponding to the access identification information according to the data distribution function of the baseband processing unit, and the data does not need to be forwarded through the 5G core network, even if the 5G core network has abnormal conditions, the electricity competition service cannot be interfered, and the stability in the process of executing the electricity competition service can be effectively ensured.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic network architecture of a communication system according to an embodiment of the present application;

fig. 2 is a schematic view of a scenario for performing data interaction according to an embodiment of the present application;

fig. 3 is a schematic flowchart of a data processing method for electronic races provided in an embodiment of the present application;

fig. 4 is a schematic diagram of a network architecture based on a 5G communication system according to an embodiment of the present application;

fig. 5 is a schematic view of a scenario for transmitting data of a power race service according to an embodiment of the present application;

fig. 6 is a schematic flowchart of a data processing method for electronic races provided in an embodiment of the present application;

fig. 7 is a scene schematic diagram for managing a 5G private network according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a data processing apparatus for electronic races provided in an embodiment of the present application;

fig. 9 is a schematic structural diagram of a data processing apparatus for electronic races provided in an embodiment of the present application;

FIG. 10 is a schematic structural diagram of a computer device according to an embodiment of the present disclosure;

fig. 11 is a schematic structural diagram of a data processing system for electronic races according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, 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 application.

The 5G private network base station shunting scheme in the embodiment of the application builds a set of complete network and scheme in a local electric competition area through the frequency band of a renting operator or the frequency band of a private network, and the complete network and scheme are completely separated from data and flow of a public network, so that the independence of the network and the safety and privacy during data transmission are guaranteed. When the local electric competition server in the base station distribution scheme of the 5G private network receives electric competition service data sent by the base station, electric competition response data corresponding to the electric competition service can be obtained based on a cloud technology, and the method is suitable for the field of data calculation in big data.

The cloud technology (cloud technology) is a hosting technology for unifying series resources such as hardware, software, network and the like in a wide area network or a local area network to realize calculation, storage, processing and sharing of data. The cloud technology is a general term of network technology, information technology, integration technology, management platform technology, application technology and the like applied based on a cloud computing business model, can form a resource pool, is used as required, and is flexible and convenient. Cloud computing technology will become an important support. Background services of the technical network system require a large amount of computing and storage resources, such as video websites, picture-like websites and more web portals. With the high development and application of the internet industry, each article may have its own identification mark and needs to be transmitted to a background system for logic processing, data in different levels are processed separately, and various industrial data need strong system background support and can only be realized through cloud computing.

Cloud computing is a computing model that distributes computing tasks over a resource pool of large numbers of computers, enabling various application systems to obtain computing power, storage space, and information services as needed. The network that provides the resources is referred to as the "cloud". Resources in the "cloud" appear to the user as being infinitely expandable and available at any time, available on demand, expandable at any time, and paid for on-demand. As a basic capability provider of cloud computing, a cloud computing resource pool (called as an ifas (Infrastructure as a Service) platform for short is established, and multiple types of virtual resources are deployed in the resource pool and are selectively used by external clients.

The Big data (Big data) refers to a data set which cannot be captured, managed and processed by a conventional software tool within a certain time range, and is a massive, high-growth-rate and diversified information asset which can have stronger decision-making power, insight discovery power and flow optimization capability only by a new processing mode. With the advent of the cloud era, big data has attracted more and more attention, and the big data needs special technology to effectively process a large amount of data within a tolerance elapsed time. The method is suitable for the technology of big data, and comprises a large-scale parallel processing database, data mining, a distributed file system, a distributed database, a cloud computing platform, the Internet and an extensible storage system.

The 5G core network in the base station shunting scheme of the 5G private network can be locally deployed, namely in a local electric competition area, an account system, a card opening account and an activated account are locally managed, the autonomy is high, the influence of external setting is avoided, and meanwhile, a public network does not need to be connected. Among other things, the in-place deployment can be analogized to a Private Cloud (Private Cloud). The private cloud is created by establishing cloud infrastructure and software and hardware resources in a firewall so that all departments in an organization or an enterprise can share the resources in a data center. A private cloud is created, typically with cloud equipment as a Service (IaaS) software in addition to hardware resources. The private cloud computing also comprises three layers of cloud hardware, a cloud platform and cloud service. In contrast, the cloud hardware is the user's own personal computer or server, not the cloud computing vendor's data center. Cloud computing vendors build data centers to provide public cloud services for millions of users, and therefore need to have tens of millions of servers. Private cloud computing serves only friends and relatives for an individual and the employees and customers and suppliers of the enterprise for the enterprise, so that the personal computer or server of the individual or enterprise is sufficient to provide cloud services. In the present application, private cloud computing services a deployed local auction area.

It can be understood that, in the embodiment of the present application, the electronic competition client for executing the electronic competition service may be a game client running on the electronic competition terminal, and may also be a cloud game running in a local electronic competition server (i.e., a cloud server), which will not be limited herein. Among them, Cloud gaming (Cloud gaming) may also be called game on demand (gaming), which is an online game technology based on Cloud computing technology. Cloud game technology enables light-end devices (thin clients) with relatively limited graphics processing and data computing capabilities to run high-quality games. In a cloud game scene, a game is not operated in a player game terminal but in a cloud server, and the cloud server renders the game scene into a video and audio stream which is transmitted to the player game terminal through a network. The player game terminal does not need to have strong graphic operation and data processing capacity, and only needs to have basic streaming media playing capacity and capacity of acquiring player input instructions and sending the instructions to the cloud server.

Referring to fig. 1, fig. 1 is a schematic diagram of a network architecture of a communication system according to an embodiment of the present disclosure. As shown in fig. 1, the communication system (e.g., communication system 1X) in the embodiment of the present application may include, but is not limited to, a 5G communication system, which will not be limited herein. The 5G private network corresponding to the communication system 1X may include a user terminal cluster, a base station, a network management system, a 5G core network (e.g., the 5G core network 10W shown in fig. 1), and a local electric competition server corresponding to the electric competition service (e.g., the local electric competition server 10F shown in fig. 1).

Wherein, each ue in the ue cluster may include: the intelligent terminal with the data processing function comprises an intelligent mobile phone, a tablet computer, a notebook computer, a desktop computer and the like. In the embodiment of the application, a user terminal for executing the electronic competition service can be called an electronic competition terminal, and a user corresponding to the electronic competition terminal can be called an electronic competition user. It should be understood that each of the electronic auction terminals may be installed with a target application (i.e., an electronic auction client) that, when running in each of the electronic auction terminals, may respectively interact with the local electronic auction server 10F shown in fig. 1 described above. In the embodiment of the present application, a user terminal for managing the communication system 1X shown in fig. 1 may be referred to as a management terminal, and a user corresponding to the management terminal may be referred to as a management user. The electronic competition service in the embodiment of the present application may refer to an electronic competition service executed by an electronic competition client. For example, when the electronic game client is a shooting game client, the electronic game service may be a shooting game service (for example, a gun battle service) executed by the shooting game client; when the electronic game client is a racing game client, the electronic game service may be a speed competition service (e.g., a racing game service) executed by the racing game client, which will not be exemplified here.

It can be understood that the number of terminals of the electronic competition terminal in the 5G private network can be N, where N is a positive integer. For example, the N user terminals may specifically include the electricity competition cluster 110D and the electricity competition cluster 120D shown in fig. 1. The electric competition cluster 110D and the electric competition cluster 120D belong to different electric competition camps, in this embodiment of the present application, the electric competition cluster 110D may be referred to as a first electric competition cluster, and an electric competition terminal in the first electric competition cluster may be referred to as a first electric competition terminal. Similarly, in the embodiment of the present application, the electronic competition cluster 120D may also be referred to as a second electronic competition cluster, and the electronic competition terminals in the second electronic competition cluster are referred to as second electronic competition terminals.

It should be understood that the administrative user can log in the network management system shown in fig. 1 to set the base station in the communication system 1X and the network element in the 5G core network 10W. The network management system in the 5G private network can comprise a first network management platform and a second network management platform, wherein the first network management platform is different from the second network management platform. For example, the first network management platform may be a local 5G core network management platform, and a management user corresponding to the management terminal may perform setting on the 5G core network management platform for a network element in the 5G core network 10W shown in fig. 1, so as to obtain the first setting information. The first setting information may include parameter information such as card information with access authority, signal strength, frequency spectrum, bandwidth, signal-to-noise ratio, and the like set by the management user. The second network management platform may be a local base station network management platform, and the management user may perform the split-flow configuration on the base station network management platform for the base station shown in fig. 1 to obtain the second setting information. The second setting information may include parameter information such as a channel, a signal-to-noise ratio, and an amplification power.

The Base station in the 5G private network may include M5G Remote units (RRUs for short), a 5G extension Unit 10K, and a baseband processing Unit (BBU for short) 10B, where M is a positive integer. For example, the M RRU units may specifically include the RRU unit 11R and the RRU unit 12R shown in fig. 1. As shown in fig. 1, for each of the M RRU units, the RRU unit may be configured to communicate with a competitive terminal or a management terminal, and the 5G remote unit may also be configured to communicate with a 5G extension unit 10K. For the 5G extension unit 10K, the 5G extension unit is configured to communicate with M RRU units, and the 5G extension unit is also configured to communicate with a BBU unit 10B having a data splitting function.

In this embodiment, the network connection relationship between the BBU unit 10B and the local electronic auction server 10F may be referred to as a first network connection relationship. It is understood that the BBU unit 10B shown in fig. 1, upon receiving the service data information (e.g., the service data information 1) sent by a certain electronic competition terminal, may directly forward the service data information 1 to the local electronic competition server 10F shown in fig. 1. The service data information sent by the electronic competition terminal can be electronic competition service data generated by the electronic competition terminal when executing electronic competition services. Herein, the network connection relationship between the BBU unit 10B and the 5G core network 10W may also be referred to as a second network connection relationship in the embodiment of the present application. The BBU unit 10B shown in fig. 1, upon receiving the service data information (e.g., the service data information 2) sent by the management terminal, may forward the service data information 2 to the 5G core network 10W. The service data information sent by the management terminal may include a card opening request, first setting information determined on a first network management platform, or second setting information determined on a second network management platform. The network connections corresponding to the first network connection relationship and the second network connection relationship may not be limited to the connection manner, that is, the network connections may be directly or indirectly connected through a wired communication manner, may also be directly or indirectly connected through a wireless communication manner, and may also be connected through other manners, which is not limited herein.

The local electronic auction server 10F in the 5G private network may be a server corresponding to the electronic auction client, where the server 10F may be an independent physical server, a server cluster or a distributed system formed by a plurality of physical servers, or a cloud server providing cloud computing services, where the number of the local electronic auction servers 10F is not limited in the embodiment of the present application.

For easy understanding, please refer to fig. 2, and fig. 2 is a schematic diagram of a scenario for performing data interaction according to an embodiment of the present application. The 5G private network base station offloading scheme may be applied to the electric competition venue 200c shown in fig. 2, that is, the 5G private network base station offloading scheme may lease the frequency band of the operator or use the frequency band of the private network, and a set of complete network and scheme is built in the local electric competition venue 200c, and data and traffic of the public network are completely isolated, so as to ensure independence of the own network. In other words, the base station in the 5G private network, the electric competition terminal running the electric competition client, the local electric competition server 20F, and the 5G core network may be deployed in the local electric competition area of the electric competition venue 200 c. The communication system corresponding to the electronic competition venue 200c may refer to the communication system 1X shown in fig. 1.

The base station in the 5G private network may include the 5G remote unit, the 5G extension unit, and the baseband processing unit shown in fig. 2. The number of the 5G remote units in the base station may include a plurality of units, and the embodiment of the present application may take 2 units as an example. As shown in fig. 2, the 5G extension unit is used to communicate with a 5G remote unit in the base station, and the 5G extension unit is also used to communicate with a baseband processing unit in the base station.

Among them, the electric competition venue 200c shown in fig. 2 may include a plurality of electric competition terminals belonging to different electric competition camps, for example, the electric competition venue 200c may include an electric competition terminal belonging to the electric competition camp a and an electric competition terminal belonging to the electric competition terminal B. The electric competition camp a shown in fig. 2 and the electric competition camp B shown in fig. 2 may be two different electric competition camps for conducting competition in the electric competition client. The number of the electric competition terminals in the electric competition formation a may include one or more, and here, 5 may be taken as an example, and the 5 electric competition terminals may specifically include an electric competition terminal 1a, an electric competition terminal 2a, an electric competition terminal 3a, an electric competition terminal 4a, and an electric competition terminal 5 a. The number of the electric competition terminals in the electric competition formation B may also include one or more, here, 5 terminals may be taken as an example, and the 5 electric competition terminals may specifically include an electric competition terminal 1B, an electric competition terminal 2B, an electric competition terminal 3B, an electric competition terminal 4B, and an electric competition terminal 5B. It is understood that the number of the electronic competition terminals in the electronic competition camp a and the number of the electronic competition terminals in the electronic competition camp B may be the same or different, and will not be limited herein. The electronic card used by the electronic card user corresponding to each electronic card terminal is obtained by the 5G core network in the electronic card venue 200c opening and activating the electronic card to be opened based on the card opening request. The card opening request is sent by a management terminal in the 5G private network.

The 5G core network shown in fig. 2 may include one or more network elements, and the number of network elements in the 5G core network will not be limited herein. For example, the 5G core network may specifically include a network element 21G, a network element 22G, a network element 23G, a network element 24G, a network element 25G, and a network element 26G. The network element 21g shown in fig. 2 may be an Access and Mobility Management Function (AMF) network element; network element 22g may be a Session Management Function (SMF) network element; the network element 23g may be a Unified Data Management (UDM) network element; the network element 24g may be an Authentication Server Function (AUSF) network element; network element 25g may be a User Plane Function (UPF) network element; the network element 26g may be a Policy Control Function (PCF) network element.

It should be understood that the line 20L shown in fig. 2 may be a data transmission process of any one of the electronic competition terminals in the electronic competition camp a or the electronic competition camp B in the embodiment of the present application when the electronic competition service is executed. It can be understood that, when the electronic competition terminal (e.g., the electronic competition terminal 1a) shown in fig. 2 runs the electronic competition client, the electronic competition service corresponding to the electronic competition client may be executed to generate the electronic competition service data carrying the access identification information. Here, the access identification information may be used to instruct the base station to perform a lookup in the traffic routing information of the baseband processing unit. Further, the electronic competition terminal 1a may send the electronic competition service data carrying the access identification information to a base station, and the base station may forward the electronic competition service data carrying the access identification information to a 5G extension unit through a 5G remote unit, and further forward the electronic competition service data carrying the access identification information to a baseband processing unit when the 5G extension unit receives the electronic competition service data carrying the access identification information.

It can be understood that, a management user corresponding to the management terminal may log in a local base station network management platform (i.e., a second network management platform) in a network management system of the 5G private network (e.g., the network management system in fig. 1) in advance, and may further perform a flow distribution configuration for the base station to obtain setting information (i.e., second setting information). Wherein the second setting information may include traffic routing information of the baseband processing unit. Based on this, when the base station acquires the electronic contest service data carrying the access identification information, the base station needs to acquire the service routing information of the baseband processing unit, and then searches the service routing information which is the same as the access identification information in the service routing information.

When the service routing information identical to the access identification information is found, the base station may directly send the electricity competition service data to the local electricity competition server 20F corresponding to the access identification information based on the network connection relationship between the baseband processing unit and the local electricity competition server 20F. At this time, the local electronic auction server 20F may obtain electronic auction response data of the electronic auction service based on the received electronic auction service data, and further may return the electronic auction response data to the electronic auction terminal 1a through the base station, so that the electronic auction terminal 1a outputs an image frame corresponding to the electronic auction response data. Meanwhile, the local auction server 20F may also return the auction response data to another auction terminal participating in the local auction service before the diselectrification auction terminal 1a shown in fig. 2 through the base station, so that the other auction terminal outputs an image frame corresponding to the auction response data.

Therefore, when the base station shown in fig. 2 acquires the electronic auction service data carrying the access identification information generated by the electronic auction terminal 1a in the electronic auction venue 200c, it can quickly send the electronic auction service data to the local electronic auction server 20F through the data splitting function of the baseband processing unit in the base station, and when the service routing information identical to the access identification information is found in the service routing information of the baseband processing unit, it is not necessary to send the electronic auction service data to the local electronic auction server 20F shown in fig. 2 through the network element 25G (e.g., UPF network element) in the 5G core network, so that the transmission time of the electronic auction service data can be effectively reduced, and the transmission efficiency of the electronic auction service data can be improved, so as to effectively ensure low delay and stability required for executing the electronic auction service.

When the electronic competition terminal in the 5G private network sends the electronic competition service data carrying the access identification information, which is generated after executing the electronic competition service, to the base station, the base station may directly send the electronic competition service data to the local electronic competition server corresponding to the access identification information according to the data distribution function of the baseband processing unit, which may be referred to in the following embodiments corresponding to fig. 3 to 7.

Further, please refer to fig. 3, wherein fig. 3 is a schematic flowchart of a data processing method for electronic races according to an embodiment of the present disclosure. As shown in fig. 3, the method may be performed by a base station in a 5G private network, which may include a 5G remote unit (RRU), a 5G extension unit, and a baseband processing unit (BBU). For example, the 5G remote unit may include the 5G remote unit 11R and the 5G remote unit 12R shown in fig. 1, the 5G extension unit may be the 5G extension unit 10K shown in fig. 1, and the baseband processing unit may be the baseband processing unit 10B shown in fig. 1. The 5G extension unit 10K is used for communication with the 5G remote units 11R and 12R, respectively, and the 5G extension unit 10K is also used for communication with the baseband processing unit 10B. Wherein, the method at least comprises the following steps S101-S103:

step S101, receiving the electricity competition service data which is sent by the electricity competition client and carries the access identification information.

The base station in the 5G private network, the electronic competition terminal running the electronic competition client (e.g., game client), the local electronic competition server, and the 5G core network may all be deployed in the same local electronic competition area (e.g., a certain electronic competition venue), so as to improve privacy and security during data transmission. Specifically, when executing the electronic competition service, the electronic competition terminal may send the electronic competition service data carrying the access identification information to the base station. At this time, the base station may receive, through the 5G remote unit, the electronic auction service data carrying the access identification information and sent by the electronic auction client through the electronic auction terminal, and forward the electronic auction service data carrying the access identification information to the 5G extension unit, and further may forward the electronic auction service data carrying the access identification information to the baseband processing unit through the 5G extension unit.

The 5G private network deployed in the local electric competition area (e.g., an electric competition venue) in the embodiment of the present application may include an electric competition terminal corresponding to an electric competition user, a management terminal corresponding to a management user, a base station, a local electric competition server, and a 5G core network. The number of the electric competition terminals in the local electric competition area may be N, where N is a positive integer, and the N electric competition terminals may specifically include a plurality of electric competition terminals belonging to different electric competition camps. For example, the number of the electronic competition terminals in the local electronic competition area may be 100, and the 100 electronic competition terminals may include 10 electronic competition camps having competition relationships, each of which is used for executing the electronic competition service associated with the local electronic competition area. Here, the number of the electronic competition terminals in each electronic competition camp may be the same or different, and is not limited herein.

The base station may include M remote units with data receiving function, a 5G extension unit with data integration function, and a baseband processing unit with data splitting function. It can be understood that the embodiment of the present application can reasonably deploy the number of 5G remote units according to the floor area of the local competition area, thereby enabling the base station to cover a larger area. For example, the number of 5G remote units in the base station may include 5, where each 5G remote unit of the M5G remote units may be configured to receive traffic data information. The 5G remote units for receiving the service data information are determined based on the network status of each 5G remote unit of the M5G remote units, and parameters such as a location distance from a data transmitting end (e.g., a power competition terminal or a management terminal), a capacity, an idle duty ratio, and the like.

The service data information may include first service data information and second service data information. The first service data information may be sent by a management terminal in the 5G private network, for example, the first service data information may include a card opening request sent by the management terminal, first setting information determined on a first network management platform (e.g., a local 5G core network management platform), and second setting information determined on a second network management platform (e.g., a local base station network management platform). The second service data information may be transmitted by the electronic competition terminal in the 5G private network, for example, the second service data information may include electronic competition service data generated by the electronic competition terminal when executing the electronic competition service.

For ease of understanding, please refer to fig. 4, where fig. 4 is a schematic diagram of a network architecture of a 5G-based communication system according to an embodiment of the present application. It is understood that the network architecture diagram is implemented on the network architecture shown in fig. 1 described above. As shown in fig. 4, the 5G communication system may include at least a 5G access network, a 5G core network, and a user terminal.

The User Equipment (UE) shown in fig. 4 may include a power competition terminal for executing a power competition service, and may also include a management terminal for managing a 5G private network corresponding to the 5G communication system, which is not limited herein. Before the user terminal performs service communication in the 5G private network, the user terminal may acquire an IP address configured by the 5G core network. For example, when the electronic competition terminal sends electronic competition service Data, an IP address configured for the electronic competition terminal by an SMF (session management function) Network element in the 5G core Network may be acquired, so as to access a Data Network (DN, for short) shown in fig. 4 according to the IP address. Such as operator services, internet access or third party services, etc.

The base station shown in fig. 4 may include N5G remote units, a 5G extension unit for data integration, and a baseband processing unit for data offloading, and the base station has a Radio Access Network (R) AN), that is, may be used to Access the user terminal shown in fig. 4 to a 5G core Network.

The user plane function network element (i.e. UPF network element) shown in fig. 4 may include the following functions: IP address management of the user terminal, policy enforcement, traffic reporting, Qos processing, forwarding of the control user plane, etc. The routing forwarding of data from the base station to the data network is the main function of the UPF network element, which is the only module in the 5G core network that processes data. The 5G core network can completely separate the control plane and the user plane, that is, the user plane module is used for processing data, and the control plane module is used for taking charge of network management and control.

The access and mobility management functional network element (i.e., the AMF network element) shown in fig. 4 is a module that is mainly used to control a user terminal to access a network, authenticate the identity of the user terminal, and enable the user terminal to move in each region of a local electric competition area to maintain connection, and is a central processing unit (CPU for short) in a 5G core network, which is similar to the human brain. For example, when a management user corresponding to a management terminal in a 5G private network opens a card, the card opening request sent by the management terminal may be accessed to a 5G core network through a base station and an AMF network element.

The session management function network element (i.e., SMF network element) shown in fig. 4 may be connected to a UPF network element in the 5G core network through an N4 interface, and is mainly used to allocate access identification information (e.g., an IP address) to the user terminal and to be responsible for managing each channel between the user terminal and the 5G core network.

The policy control function network element (i.e., PCF network element) shown in fig. 4 may refer to a unified policy framework, which provides policy rules for control plane functions. The PCF network element may include non-session management related policy control and session management related policy control. Wherein the non-session management related policy control may comprise access and mobility related policy control. For example, the PCF network element may be used to provide the AMF network element with access to mobility management related policies. The session management related policy control may include application detection and control requirements, for example, detecting traffic of a specific application, reporting start or stop of application traffic to a PCF network element, and the like. Here, the Application may be an Application corresponding to an Application Function (AF) shown in fig. 4, for example, a user terminal runs a computer client for executing a computer service.

The Network slice selection Function (NSSF for short) Network element shown in fig. 4 may determine, according to slice selection auxiliary information and subscription information of the UE, a Network slice instance that the UE allows to access. The authentication server function network element (i.e. AUSF network element) shown in fig. 4 can implement access authentication of 3GPP and non-3 GPP. The unified data management function network element (i.e., UDM network element) shown in fig. 4 may be used for data management such as user identification, access authorization, registration, mobility, subscription, short message management, and the like. For example, the UDM network element may be configured to store user information of the electronic contest user and card information in a card-open request sent by the management terminal.

It should be understood that, when the electronic competition terminal running with the electronic competition client executes the electronic competition service, the electronic competition user corresponding to the electronic competition terminal may use the electronic competition card authorized by the card opening, and execute the trigger operation for the electronic competition client in the electronic competition terminal, so that the electronic competition terminal may respond to the trigger operation to obtain the electronic competition service data information corresponding to the electronic competition service. The trigger operation may include a contact operation such as a click, a slide, or a long press, and may also include a non-contact operation such as a voice or a gesture, which will not be limited herein. Further, the electronic competition terminal may obtain an IP address configured by an SMF network element in the 5G core network for the electronic competition terminal, and the IP address is used as access identification information, so that the electronic competition service data carrying the access identification information may be obtained based on the access identification information and the electronic competition service data.

Further, the base station in the 5G private network may obtain second setting information (that is, the setting information determined after the base station is subjected to the distribution configuration on the second network management platform) determined by the management user, and may further match the terminal information carried by the electronic competition terminal with the second setting information to determine whether the 5G remote unit can access the electronic competition terminal. For example, whether the electronic contest terminal has the access right or not, and whether parameter information such as frequency spectrum, bandwidth and signal to noise ratio of the electronic contest terminal is matched with the second setting information or not.

It can be understood that, when it is determined that the 5G remote unit can access the electronic competition terminal, the base station may receive, through the 5G remote unit, electronic competition service data carrying access identification information sent by the electronic competition client through the electronic competition terminal, and forward the electronic competition service data carrying the access identification information to the 5G extension unit, and further may send the electronic competition service data carrying the access identification information to the baseband processing unit through the 5G extension unit. The 5G extension unit in the base station can extend more 5G remote units to cover a larger area, that is, the 5G extension unit can receive the service data information sent by the multiple 5G remote units connected to the 5G extension unit, and further can perform integration processing on the received multiple service data information.

Step S102, obtaining the service routing information of the baseband processing unit, and searching the service routing information which is the same as the access identification information in the service routing information.

Specifically, the base station may obtain second setting information obtained after a management user corresponding to the management terminal performs a offloading configuration on a second network management platform (for example, a local base station network management platform) for the base station. Further, the base station may determine the service routing information of the baseband processing unit from the second setting information, and search the service routing information for the same service routing information as the access identification information.

The service routing information of the baseband processing unit, which is acquired by the base station from the second setting information, may be a service routing information table. Further, please refer to table 1, where table 1 is a service routing information table associated with service routing information of a baseband processing unit according to an embodiment of the present application.

TABLE 1

Local electric competition server	Service routing information
		Electronic contest server 1	Traffic routing information 1
Electronic contest server 2	Traffic routing information 2
		…	…
Electronic contest server n	Service routing information n

As shown in table 1, the service routing information corresponding to each local bidding server in the service routing information table may be information for identifying the local bidding server, for example, the service routing information may be an IP (Internet Protocol ) address. It will be appreciated that the auction servers 1, 2, …, and n in table 1 may all be local auction servers deployed in the same local auction area. The electricity competition service corresponding to each local electricity competition server in the n local electricity competition servers can be different. For example, the electronic competition service corresponding to the electronic competition server 1 may be an electronic competition service associated with an electronic competition client 1 (e.g., a shooting-type electronic competition client); the electronic competition service corresponding to the electronic competition server 2 may be an electronic competition client 2 (e.g., a competition-type electronic competition client); the electricity competition service corresponding to the electricity competition server n can be an electricity competition service associated with the electricity competition client 3 (for example, a policy-type electricity competition client).

As shown in fig. 2, when a base station in the electric competition venue 200c acquires electric competition service data carrying access identification information (e.g., 117.114.151.174) sent by the electric competition terminal 1a, the base station may acquire the service routing information table shown in table 1. Further, the base station may search the service routing information table for the service routing information that is the same as the access identification information.

Step S103, when the service routing information identical to the access identification information is found, the electricity competition service data is sent to the local electricity competition server corresponding to the access identification information based on the first network connection relation, so that the electricity competition response data of the electricity competition service is obtained by the local electricity competition server based on the electricity competition service data.

Specifically, when the service routing information identical to the access identification information is found, the base station may directly send the electricity competition service data to the local electricity competition server corresponding to the access identification information based on the first network connection relationship. Here, the first network connection relationship refers to a network connection relationship that a baseband processing unit in the base station has with a local electric competition server corresponding to the electric competition service. At this time, the local electric competition server can obtain electric competition response data of the electric competition service based on the electric competition service data.

For ease of understanding, please refer to fig. 5, where fig. 5 is a schematic diagram of a scenario for transmitting data of a bidding operation according to an embodiment of the present application. As shown in fig. 5, the local competition area in the embodiment of the present application may include a local competition terminal 50Z, a base station, and a local competition server. The electronic competition terminal 50Z may be an electronic competition terminal for executing an electronic competition service, and the electronic competition terminal 50Z may be any one of the electronic competition terminals in the electronic competition venue 200c shown in fig. 2, for example, the electronic competition terminal 1 a. The base station may include a 5G remote unit, a 5G extension unit, and a baseband processing unit. The number of the local electric competition servers may be plural, and for example, 4 local electric competition servers may specifically include an electric competition server 51F, an electric competition server 52F, an electric competition server 53F, and an electric competition server 54F. The electricity competition clients corresponding to each of the 4 local electricity competition servers are different, that is, the electricity competition services executed by each local electricity competition server are different.

It should be appreciated that the electronic contest terminal 50Z, when executing an electronic contest service, may send electronic contest service data carrying access identification information to the base station shown in fig. 5. At this time, the base station may acquire the service routing information of the baseband processing unit, i.e., the service routing information table 5000 shown in fig. 5. The service routing information table 5000 may include service routing information corresponding to each local bidding server shown in fig. 5. Further, the base station may look up the same service routing information as the access identification information in the service routing information table 5000.

It can be understood that, when the base station finds out the service routing information (for example, the service routing information corresponding to the electronic auction server 51F) that is the same as the access identification information in the service routing information table 5000, the base station may send the electronic auction service data to the electronic auction server 51F shown in fig. 5 according to the network connection relationship (i.e., the first network connection relationship) that the baseband processing unit and the electronic auction server 51F have.

Optionally, when the base station does not find the service routing information that is the same as the access identification information in the service routing information table 5000, the base station may filter the electricity competition service data information, in other words, the data splitting function of the baseband processing unit in the base station may access the local electricity competition server corresponding to the service routing information existing in the service routing information table 5000, and may not access the service routing information that does not exist in the service routing information table 5000, that is, the embodiment of the present application extends the advantages of the 5G private network, and due to the independence of the frequency band of the 5G private network, the 5G private network may be isolated from the external network, and is not interfered by other user terminals, so that the influence of other user terminals is reduced, and the security and the isolation of the network can be effectively ensured.

In this embodiment of the present application, when a base station in a 5G private network acquires electronic competition service data carrying access identification information generated by an electronic competition terminal, service routing information of a baseband processing unit in the base station may be acquired, and then service routing information that is the same as the access identification information may be searched for in the service routing information of the baseband processing unit. It can be understood that, when the service routing information identical to the access identification information is found, the base station may rapidly send the electronic competition service data to the local electronic competition server corresponding to the access identification information through the data splitting function of the baseband processing unit, without sending the electronic competition service data to the 5G core network in the 5G private network, and then send the electronic competition service data to the local electronic competition server through the UPF network element in the 5G core network, so that the data processing time of the electronic competition service data in the 5G core network can be effectively reduced, the transmission efficiency of the electronic competition service data is further improved, and the delay of the electronic competition service is reduced. In addition, due to the data distribution function of the baseband processing unit, even when the 5G core network is abnormal, the baseband processing unit can still directly send the electronic competition service data to the local electronic competition server corresponding to the access identification information, so that the execution of the electronic competition service is not influenced by the 5G core network. Due to the independence of the frequency bands of the 5G private network, the interference of other external networks can be effectively avoided in the process of executing the electric competition service, and the stability in the process of executing the electric competition service can be effectively ensured.

Further, please refer to fig. 6, where fig. 6 is a schematic flowchart of a data processing method for electronic races provided in an embodiment of the present application. As shown in fig. 6, the method relates to a power competition terminal, a base station, and a local power competition server in a 5G private network corresponding to the 5G communication system. Wherein, the electric competition terminal, the base station and the local electric competition server can be deployed in the same local electric competition area. The method may comprise at least the following steps S201-S207:

step S201, the electronic competition terminal sends the electronic competition service data carrying the access identification information to the base station.

Specifically, when the electronic auction terminal executes the electronic auction service, the electronic auction user corresponding to the electronic auction terminal may use the electronic auction card authorized by the card opening, and execute a trigger operation for the electronic auction client in the electronic auction terminal, so that the electronic auction terminal may respond to the trigger operation to obtain the electronic auction service data information corresponding to the electronic auction service. The trigger operation may include a contact operation such as a click, a slide, or a long press, and may also include a non-contact operation such as a voice or a gesture, which will not be limited herein. The 5G private network may further include a 5G core network, and the 5G core network may be deployed in the same electric competition area (e.g., an electric competition venue) with the electric competition terminal, the base station, and the local electric competition server. Further, the electronic competition terminal may obtain an IP address configured by an SMF network element in the 5G core network for the electronic competition terminal, and the IP address is used as access identification information, so that the electronic competition service data carrying the access identification information may be obtained based on the access identification information and the electronic competition service data. At this time, the electronic contest terminal may send the electronic contest service data carrying the access identification information to the base station.

Step S202, when the base station receives the electronic competition service data carrying the access identification information, the base station obtains the service routing information of the baseband processing unit, and searches the service routing information which is the same as the access identification information in the service routing information.

Specifically, when the base station receives the data of the electronic auction service carrying the access identification information, the base station may obtain second setting information obtained after a management user corresponding to a management terminal in the 5G private network performs distribution configuration on a second network management platform (for example, a local base station network management platform) for the base station. Further, the base station may obtain a service routing information table associated with the service routing information from the second setting information, and may further determine the service routing information of the baseband processing unit from the service routing information table, and look up the service routing information that is the same as the access identification information in the service routing information table.

In step S203, when the base station finds out the service routing information that is the same as the access identification information, the base station sends the electricity competition service data to the local electricity competition server corresponding to the access identification information based on the first network connection relationship.

Specifically, when the base station finds out the service routing information that is the same as the access identification information, the base station may send the electricity competition service data to the local electricity competition server corresponding to the access identification information based on the first network connection relationship that is possessed between the baseband processing unit and the local electricity competition server corresponding to the access identification information.

For specific implementation of steps S201 to S203, reference may be made to the description of steps S101 to S103 in the embodiment corresponding to fig. 3, which will not be described herein again.

Step S204, the local electric competition server obtains electric competition response data of the electric competition service based on the electric competition service data.

Specifically, when receiving the electricity competition service data forwarded by the baseband processing unit, the local electricity competition server may determine, based on a cloud technology, electricity competition service response data corresponding to the electricity competition service.

The electronic contest service data can be generated when the electronic contest terminal responds to the electronic contest user to execute a trigger operation (for example, a left-sliding operation) on the terminal interface of the electronic contest terminal. If the local electronic auction server is a cloud server corresponding to the running electronic auction client (i.e., the cloud game), when the local electronic auction server receives the electronic auction service data forwarded by the base station processing unit, the local electronic auction server may control the virtual object in the electronic auction client to perform a left-sliding operation based on the electronic auction service data, so as to obtain an image frame obtained after the left-sliding operation (e.g., a game image frame of the cloud game).

In order to improve the transmission efficiency, the local electronic competition server may perform encoding processing on the image frame before returning the image frame to the electronic competition terminal to obtain a video encoding code stream, and at this time, the local electronic competition server may use the video encoding code stream as electronic competition response data obtained after executing the electronic competition service.

In step S205, the local bidding competition server sends bidding competition response data to the base station.

Specifically, the local auction server may transmit the auction response data to the 5G expansion unit through the baseband processing unit in the base station, so that the 5G expansion unit forwards the auction response data to the 5G remote unit.

In step S206, the base station returns the data of the power competition response to the power competition terminal.

Specifically, the base station may return the race response data to the race terminals through the 5G remote units in the base station. It can be understood that the base station can not only return the data of the electric competition response to the electric competition terminal for sending the data of the electric competition service, but also push the data of the electric competition response to other electric competition terminals for executing the electric competition service, so as to realize data synchronization.

In step S207, the electronic contest terminal outputs an image frame corresponding to the electronic contest response data.

Specifically, when receiving the electronic competition response data sent by the base station, the electronic competition terminal may decode the electronic competition response data, and may further obtain an image frame corresponding to the electronic competition response data. At this time, the electronic contest terminal may output the image frame obtained after the decoding process on a terminal interface of the electronic contest terminal.

The base band processing unit in the base station has a data distribution function, the base band processing unit and the local electric competition server have a first network connection relation, and the base band processing unit and the 5G core network have a second network connection relation. It can be understood that the 5G private network may further include a management terminal for managing a 5G communication system corresponding to the 5G private network.

In an initial state, a management user corresponding to the management terminal may log in a first network management platform (e.g., a local network management platform of a 5G core network) associated with the 5G private network in advance, and may further perform setting for a network element in the 5G core network. For example, the administrative user may set card information, signal strength, frequency spectrum, bandwidth, signal-to-noise ratio, and other parameter information of the electronic card with access authority. When the setting of the management user is completed, the management terminal may refer to the setting information obtained after the management user performs the setting on the network element in the 5G core network as first setting information. Further, the management terminal may send the first setting information to a base station in the 5G private network, so that the base station may forward the first setting information to the 5G core network through the baseband processing unit and the second network connection relationship, so that the 5G core network stores the first setting information.

The 5G core network in this embodiment may include a first functional network element, a second functional network element, and a third functional network element. The first functional network element (e.g., an AMF network element) may be a network element that implements access and mobility management functions. The second functional network element (e.g., SMF network element) may be configured to implement a session management function and the third functional network element (e.g., UDM network element) may be configured to implement a unified data management function. Therefore, when the management terminal sends the first setting information to the base station based on the baseband processing unit and the second network connection relationship, the base station may forward the first setting information to the AMF network element in the 5G core network, so that the AMF network element forwards the first setting information to the SMF network element. Further, the SMF network element in the 5G core network may send the first setup information to the UDM network element, so that the UDM network element stores the first setup information.

It can be understood that the management user corresponding to the management terminal can also perform card opening processing on the electronic contest user who needs to participate in the electronic contest service, and after the card opening is successful, the electronic contest user can use the authorized electronic contest card in the electronic contest terminal to participate in the electronic contest service. The management user corresponding to the management terminal can execute card opening operation aiming at the electric card competition to be opened, so that the management terminal can respond to the card opening operation to determine the card information of the electric card competition to be opened. Further, the management terminal may generate a card opening request for transmission to the base station based on card information of the electronic card to be opened. When receiving the card opening request, the base station can forward the card opening request to the AMF network element in the 5G core network through the baseband processing unit and the second network connection relation, so that the AMF forwards the card opening request to the SMF network element. Further, the SMF network element in the 5G core network may authenticate the card opening request based on the first setting information and the card information.

It can be understood that, when the card information matches the first setting information, the SMF network element may determine that the card opening request is successfully authenticated, that is, the card opening request is a legal request, and may further store the card information carried in the card opening request to the UDM network element, which means that the electronic card to be opened has been successfully opened. Optionally, when the card information is not matched with the first setting information, the SMF network element may determine that the card opening request authentication fails, that is, the card opening request is an illegal request, which means that the electronic card race to be opened fails to open the card.

For easy understanding, please refer to fig. 7, and fig. 7 is a schematic view of a scenario for managing a 5G private network according to an embodiment of the present application. As shown in fig. 7, the base station in the 5G private network, the electric competition terminal for executing the electric competition service, the local electric competition server 70F, and the 5G core network may be deployed in a local electric competition area, which is an electric competition venue 700 c. The communication system corresponding to the electronic competition venue 700c may refer to the communication system 1X shown in fig. 1.

The 5G private network deployed in the electric competition venue 700C may include a plurality of electric competition camps for competing for the same electric competition service, as shown in fig. 7, and the plurality of electric competition camps (taking 3 as an example) may specifically include an electric competition camp a, an electric competition camp B, and an electric competition camp C. Each electric competition camp may include a plurality of electric competition terminals, which is not limited herein.

The base station in the 5G private network may include a 5G remote unit having a data receiving function, a 5G extension unit having a data integrating function, and a baseband processing unit having a data splitting function. The number of 5G remote units in the base station shown in fig. 7 may include M, where M is a positive integer. As shown in fig. 7, each 5G remote unit of the M5G remote units is used for communicating with the electronic competition terminal or management terminal 70Z in the electronic competition formation shown in fig. 7, and each 5G remote unit is also used for communicating with the 5G extension unit. The baseband processing unit shown in fig. 7 has a first network connection relationship with the local auction server 70F shown in fig. 7, and the baseband processing unit has a second network connection relationship with the 5G core network shown in fig. 7.

The 5G core network shown in fig. 7 may include one or more network elements, and the number of network elements in the 5G core network will not be limited herein. For example, the 5G core network herein may specifically include a network element 71G (e.g., an AMF network element, i.e., a first functional network element), a network element 72G (e.g., an SMF network element, i.e., a second functional network element), a network element 73G (e.g., a UDM network element, i.e., a third functional network element), a network element 74G (e.g., an AUSF network element), a network element 75G (e.g., a UPF network element), and a network element 76G (e.g., a PCF network element).

It should be understood that the line 70L shown in fig. 7 may be a data transmission process of the management terminal 70Z when the card opening processing is performed on the electronic card to be opened in the embodiment of the present application. It can be understood that, when the management user corresponding to the management terminal 70Z performs a card opening operation on the electronic card to be opened, the management terminal 70Z may determine card information of the electronic card to be opened in response to the trigger operation. The card information can be configured for the electronic card to be opened by using an information input device (such as a card burner). Further, the management terminal 70Z may generate a card opening request for transmission to the base station shown in fig. 7 based on the card information of the electronic card to be opened.

It is understood that the base station may receive the card-opening request sent by the management terminal 70Z through a certain 5G remote unit (e.g., a 5G remote unit having a closest location distance from the management terminal 70Z) deployed in the electronic competition venue 700c, and further forward the received card-opening request to the 5G extension unit. The 5G remote units for receiving the card-open request are determined based on the network status, the position distance from the management terminal 70Z, the capacity, the idle duty cycle, and other parameters of each 5G remote unit in the M5G remote units shown in fig. 7. Further, the base station may forward the card-opening request to the baseband processing unit through the 5G extension unit shown in fig. 7, so that the baseband processing unit may send the card-opening request to the 5G core network shown in fig. 7 based on the second network connection relationship.

At this time, the network element 71G in the 5G core network may receive the card opening request forwarded by the baseband processing unit, and further may send the card opening request to the network element 72G, so that the network element 72G authenticates the card opening request. It can be understood that the network element 72g may obtain the first setting information set by the administrative user on the first network management platform, and may further match the first setting information with the card information carried by the card opening request.

When the card information is not matched with the first setting information, the network element 72g may determine that the card opening request authentication fails, that is, the card opening request is an illegal request, which means that the electronic card race to be opened fails to open the card. Optionally, when the card information is matched with the first setting information, the network element 72g may determine that the card opening request is successfully authenticated, that is, the card opening request is a legal request, and at this time, the network element 72g may store the card information carried in the card opening request to the network element 73g, which means that the electronic card race to be opened has been successfully opened.

It should be understood that, when the electronic card is successfully opened, the electronic card user associated with the electronic competition venue 700c may install the electronic card that has been successfully opened into the electronic competition terminal used by the user, and further may participate in executing the electronic competition service according to the electronic card that has been successfully opened, so that the electronic competition terminal implements data interaction with the local electronic competition server 70F shown in fig. 7 through the base station.

Meanwhile, in an initial state, a management user corresponding to the management terminal can also log in a second network management platform (for example, a local base station network management platform) associated with the 5G private network in advance, and further can perform shunt configuration for a base station in the 5G private network. For example, the administrative user may set parameter information such as channel, signal-to-noise ratio, and amplification power of the 5G remote unit, set traffic routing information of the baseband processing unit, and so on. When the setting of the management user is completed, the management terminal may refer to the setting information determined after the management user performs the distribution configuration for the base station in the 5G private network as second setting information. Further, the management terminal may send the second setting information to the base station, so that the base station may forward the second setting information to the 5G core network through the baseband processing unit and the second network connection relationship, so that the 5G core network stores the second setting information. For a specific implementation manner of the base station receiving the second setting information in this embodiment, reference may be made to the above-mentioned specific implementation manner of the base station receiving the first setting information, and details will not be further described here.

In the embodiment of the application, when a base station in a 5G private network acquires the electronic competition service data carrying the access identification information, which is generated by an electronic competition terminal in an electronic competition venue, the service routing information which is the same as the access identification information can be searched in the service routing information of the baseband processing unit, and then when the service routing information is searched, the electronic competition service data can be quickly sent to the local electronic competition server through the data distribution function of the baseband processing unit in the base station, without sending the electronic competition service data to the local electronic competition server through a 5G core network in the 5G private network, so that the data processing duration of the electronic competition service data in the 5G core network can be effectively reduced, and further the data transmission efficiency can be improved, so that the delay of the electronic competition service data is reduced. In addition, since the 5G private network is an emerging technology, some abnormal situations are likely to occur in the 5G private network, so that the 5G core network in the 5G private network is abnormal, and thus the abnormal situations occur in the card opening process and the authentication process. Therefore, the embodiment of the application can effectively ensure low delay and stability required by executing the electronic competition service.

Further, please refer to fig. 8, fig. 8 is a schematic structural diagram of a data processing apparatus for electronic races according to an embodiment of the present disclosure. As shown in fig. 8, the electronic contest data processing apparatus 1 may be a computer program (including program code) running in a computer device, for example, the electronic contest data processing apparatus 1 is an application software; the electronic contest data processing apparatus 1 may be used to execute corresponding steps in the method provided by the embodiments of the present application. As shown in fig. 8, the data processing apparatus 1 may operate in a base station in a 5G private network, and the base station may be the base station in the embodiment corresponding to fig. 2. The electronic contest data processing apparatus 1 may include: the system comprises a data receiving module 11, a searching module 12, a data sending module 13, a data filtering module 14, a first information receiving module 15, a first information forwarding module 16, a request receiving module 17, a request forwarding module 18, a second information receiving module 19 and a second information forwarding module 20.

The data receiving module 11 is configured to receive the electronic competition service data which is sent by the electronic competition client and carries the access identification information; the electronic competition service data is generated by the electronic competition client when the electronic competition service is executed; the base station comprises a baseband processing unit with a data distribution function; the baseband processing unit has a first network connection relation with a local electric competition server corresponding to the electric competition service; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area.

The base station comprises a 5G remote unit, a 5G expansion unit and a baseband processing unit; the 5G remote unit is used for communicating with the electronic competition terminal, and the 5G remote unit is also used for communicating with the 5G expansion unit;

the data receiving module 11 includes: a data receiving unit 111 and a data forwarding unit 112.

The data receiving unit 111 is configured to receive, by the 5G remote unit, the electronic competition service data carrying the access identifier information sent by the electronic competition client, and forward the electronic competition service data carrying the access identifier information to the 5G extension unit;

the data forwarding unit 112 is configured to forward, through the 5G extension unit, the electronic competition service data carrying the access identifier information to the baseband processing unit.

For specific implementation of the data receiving unit 111 and the data forwarding unit 112, reference may be made to the description of step S101 in the embodiment corresponding to fig. 3, and details will not be further described here.

The searching module 12 is configured to obtain service routing information of the baseband processing unit, and search service routing information that is the same as the access identifier information in the service routing information;

the data sending module 13 is configured to, when the service routing information that is the same as the access identification information is found, send the electricity competition service data to the local electricity competition server corresponding to the access identification information based on the first network connection relationship, so that the local electricity competition server obtains electricity competition response data of the electricity competition service based on the electricity competition service data.

The data filtering module 14 is configured to filter the electronic contest service data when the service routing information identical to the access identification information is not found.

The 5G private network comprises a 5G core network and a management terminal; the 5G core network and the baseband processing unit have a second network connection relation;

the first information receiving module 15 is configured to receive first setting information sent by the management terminal; the first setting information is determined after a management user corresponding to the management terminal sets a network element in the 5G core network on the first network management platform;

the first information forwarding module 16 is configured to forward the first setting information to the 5G core network through the baseband processing unit and the second network connection relationship, so that the 5G core network stores the first setting information.

The 5G core network comprises a first functional network element, a second functional network element and a third functional network element; the first functional network element is used for realizing access and mobility management functions; the second functional network element is used for realizing a session management function; the third functional network element is used for realizing a unified data management function;

the first information forwarding module 16 is further configured to:

forwarding the first setting information to a first functional network element through a baseband processing unit and a second network connection relation, so that the first functional network element forwards the first setting information to a second functional network element; the second functional network element is configured to store the first setting information to the third functional network element.

The request receiving module 17 is configured to receive a card opening request sent by the management terminal; the card opening request carries card information of the electronic card to be opened;

the request forwarding module 18 is configured to forward the card opening request to the first functional network element through the baseband processing unit and the second network connection relationship, so that the first functional network element forwards the card opening request to the second functional network element; the second functional network element is used for authenticating the card opening request based on the first setting information and the card information, and storing the card information to the third functional network element when the authentication is successful; the card information stored in the third functional network element is card information corresponding to the electronic competition card used by the electronic competition terminal.

The second information receiving module 19 is configured to receive second setting information sent by the management terminal; the second setting information is determined after the management user performs the distribution configuration on the second network management platform aiming at the base station; the second network management platform is different from the first network management platform;

the second information forwarding module 20 is configured to forward the second setting information to the 5G core network through the baseband processing unit and the second network connection relationship, so that the 5G core network stores the second setting information; the second setting information includes traffic routing information of the baseband processing unit.

The 5G private network comprises N electronic competition terminals; n is a positive integer; the N electric competition terminals comprise a first electric competition terminal belonging to the first electric competition camp and a second electric competition terminal belonging to the second electric competition camp; the first electricity competition camp and the second electricity competition camp belong to different electricity competition camps.

The number of the 5G remote units in the base station is M, and M is a positive integer; each 5G remote unit in the M5G remote units is used for receiving service data information; the service data information comprises first service data information and second service data information; the first service data information is sent by a management terminal in the 5G private network; the second service data information is transmitted by the electronic contest terminal.

The number of the 5G extension units and the number of the baseband processing units in the base station are both 1, and the 5G extension units are used for communicating with the M5G remote units and also used for communicating with the baseband processing units; and the 5G extension unit is used for integrating the service data information.

For specific implementation manners of the data receiving module 11, the searching module 12, the data sending module 13, the data filtering module 14, the first information receiving module 15, the first information forwarding module 16, the request receiving module 17, the request forwarding module 18, the second information receiving module 19, and the second information forwarding module 20, reference may be made to the description of step S201 to step S207 in the embodiment corresponding to fig. 6, and details will not be further described here. In addition, the beneficial effects of the same method are not described in detail.

Further, please refer to fig. 9, fig. 9 is a schematic structural diagram of a data processing apparatus for electronic races according to an embodiment of the present application. The electronic contest data processing apparatus 2 may be a computer program (including program code) running in a computer device, e.g. the electronic contest data processing apparatus 2 is an application software; the electronic contest data processing apparatus 2 may be used to execute the corresponding steps in the method provided in the embodiments of the present application. As shown in fig. 9, the electronic auction data processing device 2 may operate in a local electronic auction server in a 5G private network, and the local electronic auction server may be the local electronic auction server 20F in the embodiment corresponding to fig. 2. The electronic contest data processing apparatus 2 may include: a service data receiving module 100, a response data determining module 200 and a response data returning module 300.

The service data receiving module 100 is configured to receive, based on a first network connection relationship, electronic contest service data sent by a baseband processing unit having a data offloading function; the baseband processing unit is deployed in a base station of the 5G private network; the electronic competition service data is generated by the electronic competition client when the electronic competition service is executed; the electronic contest service data carries access identification information; the access identification information is used for indicating the base station to search in the service routing information of the baseband processing unit; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area;

the response data determining module 200 is configured to obtain the data of the electronic auction service based on the data of the electronic auction service;

the response data returning module 300 is configured to return the electronic contest response data to the electronic contest terminal through the base station, so that the electronic contest terminal outputs an image frame corresponding to the electronic contest response data.

For specific implementation manners of the service data receiving module 100, the response data determining module 200, and the response data returning module 300, reference may be made to the description of step S204 to step S207 in the embodiment corresponding to fig. 6, and details will not be further described here. In addition, the beneficial effects of the same method are not described in detail.

Further, please refer to fig. 10, where fig. 10 is a schematic structural diagram of a computer device according to an embodiment of the present application. As shown in fig. 10, the computer device may include at least a processor 3201, an input device 3202, an output device 3203, and a computer storage medium 3204. The processor 3201, input device 3202, output device 3203, and computer storage medium 3204 may be connected by a bus or other means, among others. A computer storage medium 3204 may be stored in the memory of the computer device, the computer storage medium 3204 being used to store a computer program comprising program instructions, the processor 3201 being used to execute the program instructions stored by the computer storage medium 3204. Processor 3201 (or CPU)

(Central Processing Unit)) is a computing core and a control core of the computer device, which are adapted to implement one or more instructions, and in particular to load and execute one or more instructions to implement a corresponding method flow or a corresponding function.

An embodiment of the present invention further provides a computer storage medium (Memory)3204, where the computer storage medium is a Memory device of a computer device and is used to store programs and data. The computer storage media provides storage space in which one or more instructions, which may be one or more computer programs (including program code), are stored that are suitable for loading and execution by the processor 3201. The computer storage medium may be a high-speed RAM memory, or may be a non-volatile memory (non-volatile memory), such as at least one disk memory; and optionally at least one computer storage medium located remotely from the processor.

In one embodiment, one or more instructions stored in a computer storage medium are loaded and executed by processor 3201 such that a computer device equipped with processor 3201 may implement the methods of the embodiments shown in fig. 3-7. In an embodiment, the computer device may perform the description of the electronic auction data processing method in the embodiment corresponding to fig. 3 or fig. 6, or may also perform the description of the electronic auction data processing device 1 in the embodiment corresponding to fig. 8 or perform the description of the electronic auction data processing device 2 in the embodiment corresponding to fig. 9, which is not described herein again. In addition, the beneficial effects of the same method are not described in detail.

An aspect of the application provides a computer program product or computer program comprising computer instructions stored in a computer readable storage medium. The processor of the computer device reads the computer instruction from the computer-readable storage medium, and the processor executes the computer instruction, so that the computer device can execute the description of the electronic contest data processing method in the embodiment corresponding to fig. 3 or fig. 6, which is not described herein again. In addition, the beneficial effects of the same method are not described in detail.

Further, please refer to fig. 11, fig. 11 is a schematic structural diagram of a data processing system for electronic contests according to an embodiment of the present application. The electronic contest data processing system 3X may include an electronic contest data processing apparatus 131a and an electronic contest data processing apparatus 132 a. The electronic competition data processing device 131a may be the electronic competition data processing device 1 in the embodiment corresponding to fig. 8, and it can be understood that the electronic competition data processing device 131a may be integrated in a base station in a 5G private network in the embodiment corresponding to fig. 2, and therefore, details thereof will not be repeated here. The electronic auction data processing device 132a may be the electronic auction data processing device 2 in the embodiment corresponding to fig. 9, and it is understood that the electronic auction data processing device 132a may be integrated in the local electronic auction server 20F in the 5G private network in the embodiment corresponding to fig. 2, and therefore, details thereof will not be repeated here. In addition, the beneficial effects of the same method are not described in detail. For technical details not disclosed in the embodiments of the data processing system for electronic races related to the present application, please refer to the description of the embodiments of the method of the present application.

The terms "first," "second," and the like in the description and in the claims and drawings of the embodiments of the present application are used for distinguishing between different objects and not for describing a particular order. Furthermore, the terms "comprises" and any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, apparatus, product, or apparatus that comprises a list of steps or elements is not limited to the listed steps or modules, but may alternatively include other steps or modules not listed, or may alternatively include other steps or elements inherent to such process, method, apparatus, product, or apparatus.

Those of ordinary skill in the art will appreciate that the elements and algorithm steps of the examples described in connection with the embodiments disclosed herein may be embodied in electronic hardware, computer software, or combinations of both, and that the components and steps of the examples have been described in a functional general in the foregoing description for the purpose of illustrating clearly the interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present application.

The method and the related apparatus provided by the embodiments of the present application are described with reference to the flowchart and/or the structural diagram of the method provided by the embodiments of the present application, and each flow and/or block of the flowchart and/or the structural diagram of the method, and the combination of the flow and/or block in the flowchart and/or the block diagram can be specifically implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block or blocks of the block diagram. These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block or blocks in the block diagrams of the structure. These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block or blocks in the block diagrams.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present application and is not to be construed as limiting the scope of the present application, so that the present application is not limited thereto, and all equivalent variations and modifications can be made to the present application.

Claims (15)

1. A data processing method for electronic competitions, which is executed by a base station deployed in a 5G private network, comprises the following steps:

receiving electronic competition service data which is sent by an electronic competition client and carries access identification information; the electronic competition service data is generated by the electronic competition client when the electronic competition service is executed; the base station comprises a baseband processing unit with a data distribution function; the baseband processing unit and a local electric competition server corresponding to the electric competition service have a first network connection relation; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area;

acquiring service routing information of the baseband processing unit, and searching service routing information which is the same as the access identification information in the service routing information;

when the service routing information identical to the access identification information is found, the electricity competition service data is sent to the local electricity competition server corresponding to the access identification information based on the first network connection relation, so that the local electricity competition server obtains electricity competition response data of the electricity competition service based on the electricity competition service data.

2. The method of claim 1, wherein the base station comprises a 5G remote unit, a 5G spreading unit, and the baseband processing unit; the 5G remote unit is used for communicating with the electronic competition terminal and communicating with the 5G expansion unit;

the receiving of the electronic competition service data carrying the access identification information sent by the electronic competition client comprises the following steps:

receiving, by the 5G remote unit, the electronic auction service data carrying the access identification information sent by the electronic auction client, and forwarding the electronic auction service data carrying the access identification information to the 5G extension unit;

and forwarding the electronic competition service data carrying the access identification information to the baseband processing unit through the 5G expansion unit.

3. The method of claim 1, further comprising:

and when the service routing information identical to the access identification information is not found, filtering the electronic contest service data.

4. The method of claim 1, wherein the 5G private network comprises a 5G core network and a management terminal; the 5G core network and the baseband processing unit have a second network connection relationship;

the method further comprises the following steps:

receiving first setting information sent by the management terminal; the first setting information is determined after a management user corresponding to the management terminal sets a network element in the 5G core network on a first network management platform;

and forwarding the first setting information to the 5G core network through the baseband processing unit and the second network connection relationship, so that the 5G core network stores the first setting information.

5. The method of claim 4, wherein the 5G core network comprises a first functional network element, a second functional network element, and a third functional network element; the first functional network element is used for realizing access and mobility management functions; the second functional network element is used for realizing a session management function; the third functional network element is used for realizing a unified data management function;

the forwarding the first setting information to the 5G core network through the baseband processing unit and the second network connection relationship includes:

forwarding the first setting information to the first functional network element through the baseband processing unit and the second network connection relationship, so that the first functional network element forwards the first setting information to the second functional network element; the second functional network element is configured to store the first setting information to the third functional network element.

6. The method of claim 5, further comprising:

receiving a card opening request sent by the management terminal; the card opening request carries card information of the electronic card to be opened;

forwarding the card opening request to the first functional network element through the baseband processing unit and the second network connection relation, so that the first functional network element forwards the card opening request to the second functional network element; the second functional network element is configured to authenticate the card opening request based on the first setting information and the card information, and store the card information to the third functional network element when authentication is successful; the card information stored in the third functional network element is card information corresponding to a power competition card used by the power competition terminal.

7. The method of claim 4, further comprising:

receiving second setting information sent by the management terminal; the second setting information is determined after the management user performs the distribution configuration on the second network management platform aiming at the base station; the second network management platform is different from the first network management platform;

forwarding the second setting information to the 5G core network through the baseband processing unit and the second network connection relationship, so that the 5G core network stores the second setting information; the second setting information includes service routing information of the baseband processing unit.

8. The method according to claim 1, wherein the 5G private network comprises N of the electric competition terminals; n is a positive integer; the N electric competition terminals comprise a first electric competition terminal belonging to first electric competition camp and a second electric competition terminal belonging to second electric competition camp; the first electricity competition camp and the second electricity competition camp belong to different electricity competition camps.

9. The method of claim 1, wherein the number of 5G remote units in the base station is M, and wherein M is a positive integer; each 5G remote unit in the M5G remote units is used for receiving service data information; the service data information comprises first service data information and second service data information; the first service data information is sent by a management terminal in the 5G private network; the second service data information is sent by the electronic contest terminal.

10. The method of claim 9, wherein the number of 5G extension units and the number of baseband processing units in the base station are both 1, and the 5G extension units are configured to communicate with the M5G remote units and are configured to communicate with the baseband processing units; and the 5G expansion unit is used for integrating the service data information.

11. A data processing method for electronic competitions, which is characterized in that the method is executed by a local electronic competition server deployed in a 5G private network and comprises the following steps:

receiving the electronic contest service data sent by a baseband processing unit with a data distribution function based on the first network connection relation; the baseband processing unit is deployed in a base station of the 5G private network; the electronic competition service data is generated by the electronic competition client when the electronic competition service is executed; the electricity competition service data carries access identification information; the access identification information is used for indicating the base station to search in the service routing information of the baseband processing unit; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area;

obtaining the electricity competition response data of the electricity competition service based on the electricity competition service data;

and returning the electric competition response data to the electric competition terminal through the base station so that the electric competition terminal outputs an image frame corresponding to the electric competition response data.

12. A data processing apparatus for electronic races, comprising:

the data receiving module is used for receiving the electricity competition service data which is sent by the electricity competition client and carries the access identification information; the electronic competition service data is generated by the electronic competition client when the electronic competition service is executed; the base station comprises a baseband processing unit with a data distribution function; the baseband processing unit and a local electric competition server corresponding to the electric competition service have a first network connection relation; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area;

the searching module is used for acquiring the service routing information of the baseband processing unit and searching the service routing information which is the same as the access identification information in the service routing information;

and the data sending module is used for sending the electricity competition service data to the local electricity competition server corresponding to the access identification information based on the first network connection relation when the service routing information identical to the access identification information is found, so that the local electricity competition server obtains electricity competition response data of the electricity competition service based on the electricity competition service data.

13. A data processing apparatus for electronic races, comprising:

the service data receiving module is used for receiving the electronic contest service data sent by the baseband processing unit with the data distribution function based on the first network connection relation; the baseband processing unit is deployed in a base station of a 5G private network; the electronic competition service data is generated by the electronic competition client when the electronic competition service is executed; the electricity competition service data carries access identification information; the access identification information is used for indicating the base station to search in the service routing information of the baseband processing unit; the base station, the electric competition terminal to which the electric competition client belongs and the local electric competition server are all deployed in the same local electric competition area;

the response data determining module is used for obtaining the electric competition response data of the electric competition service based on the electric competition service data;

and the response data returning module is used for returning the electronic competition response data to the electronic competition terminal through the base station so that the electronic competition terminal outputs an image frame corresponding to the electronic competition response data.

14. A computer device, comprising: a processor and a memory;

the processor is connected to a memory for storing a computer program, the processor being configured to invoke the computer program to cause the computer device to perform the method of any of claims 1-11.

15. A computer-readable storage medium, in which a computer program is stored which is adapted to be loaded and executed by a processor to cause a computer device having said processor to carry out the method of any one of claims 1 to 11.

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