CN114979284B - 5G message scheduling method, device and system - Google Patents

Abstract

The application discloses a 5G message scheduling method, device and system, wherein the method comprises the following steps: receiving a target 5G message sent by an edge application server, wherein the target 5G message is sent to the edge application server by a first MaaP system after receiving a user external service request, and the target 5G message is used for requesting to access external service; analyzing the target 5G message, and determining the target category of the requested external service; determining a target category address corresponding to the target category according to a mapping relation between a preset category of external service and the category address; modifying the destination address of the target 5G message into the target category address; and sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

Description

5G message scheduling method, device and system

Technical Field

The present disclosure relates to the field of communications technologies, and in particular, to a method, an apparatus, and a system for scheduling 5G messages.

Background

With the development of communication technology, the 5G message is proposed, so that the user can realize the functions of chat, search, office and the like in the short message page. When using the 5G message, all required external services need to be completed on a short message page, but the external services carried in the 5G message are realized through a Maap (Messaging as a Platform, message, i.e. platform) system, and the Maap system can provide interactive multimedia business information, including searching, detail query, information interaction and the like, and simultaneously accepts external services provided by a third party application, including access of a third party service, storage of multimedia message content, message audit docking and the like.

When a user needs to receive 5G multimedia external services, the user searches for the external services by searching for the recorded applications, or actively submits resource requirements to a third party application by a Maap system, and the third party application actively pushes resources to the Maap system, and then pushes the resources to the user after being checked by the Maap system. However, for high-concurrency and high-capacity external service requirements, there is a problem of large loading delay, and thus the use experience of the user is affected.

Disclosure of Invention

The application discloses a 5G message scheduling method, device and system, which are used for solving the problem that the loading time delay is large for the high-capacity external service requirement of the current 5G message platform.

In order to solve the problems, the application adopts the following technical scheme:

in a first aspect, an embodiment of the present application discloses a 5G message scheduling method, where the method includes: receiving a target 5G message sent by an edge application server, wherein the target 5G message is sent to the edge application server by a first MaaP system after receiving a user external service request, and the target 5G message is used for requesting to access external service; analyzing the target 5G message, and determining the target category of the requested external service; determining a target category address corresponding to the target category according to a mapping relation between a preset category of external service and the category address; modifying the destination address of the target 5G message into the target category address; and sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

In a second aspect, an embodiment of the present application discloses a 5G message scheduling method, where the method includes: the method comprises the steps that an edge application server receives a target 5G message sent by a first MaaP system, wherein the target 5G message is sent to the edge application server after the first MaaP system receives a user external service request, and the target 5G message is used for requesting to access external services; the target 5G message is sent to a service scheduling auxiliary module; receiving a modified target 5G message returned by the service scheduling auxiliary module, wherein the destination address of the modified target 5G message is modified into a target category address corresponding to the category of the external service requested by the target 5G message; and sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

In a third aspect, an embodiment of the present application discloses a 5G message scheduling apparatus, where the apparatus includes: the receiving module is used for receiving a target 5G message sent by an edge application server, wherein the target 5G message is sent to the edge application server after receiving an external service request of a user by a first MaaP system, and the target 5G message is used for requesting to access external service; the analysis module is used for analyzing the target 5G message and determining the target category of the requested external service; the determining module is used for determining a target category address corresponding to the target category according to a mapping relation between the category of the preset external service and the category address; the modifying module is used for modifying the destination address of the target 5G message into the target category address; and the sending module is used for sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

In a fourth aspect, an embodiment of the present application discloses a 5G message scheduling apparatus, where the apparatus includes: the first receiving module is used for receiving a target 5G message sent by a first MaaP system by an edge application server, wherein the target 5G message is sent to the edge application server after the first MaaP system receives a user external service request, and the target 5G message is used for requesting to access external services; the first sending module is used for sending the target 5G message to the service scheduling auxiliary module; the second receiving module is used for receiving the modified target 5G message returned by the service scheduling auxiliary module, wherein the destination address of the modified target 5G message is modified into a target category address corresponding to the category of the external service requested by the target 5G message; and the second sending module is used for sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

In a fifth aspect, embodiments of the present application disclose a 5G message scheduling system, including: the system comprises a first Maap system, an edge application server, a service scheduling auxiliary module and an edge application external service scheduler, wherein the first Maap system is used for sending a target 5G message to the edge application server after receiving an external service request of a user, and the target 5G message is used for requesting to access external service; the edge application server is used for sending the target 5G message to the service scheduling auxiliary module after receiving the target 5G message; the service scheduling auxiliary module is used for analyzing the target 5G message and determining the target category of the requested external service; determining a target category address corresponding to the target category according to a mapping relation between a preset category of external service and the category address; modifying the destination address of the target 5G message into the target category address, and sending the modified target 5G message to an edge application external service scheduler; and the edge application external service dispatcher is used for dispatching the target 5G message to a corresponding external server.

The embodiment of the application discloses the following beneficial effects can be achieved by the technical scheme adopted by the application:

the embodiment of the application discloses a 5G message scheduling method, which is characterized in that a service scheduling auxiliary module is added in an edge computing platform, and the service scheduling auxiliary module modifies a destination address in a target 5G message into a target category address, so that after the edge application external service scheduler receives the modified target 5G message, the modified target 5G message can be distributed to a corresponding external server, and further the edge application external server can be appointed to perform effective and accurate scheduling on an external service request of terminal equipment, and further the external service access time delay of the terminal equipment can be reduced, and further the problem that the loading time delay is larger for the large-capacity external service requirement of the current 5G message platform is solved.

Drawings

Fig. 1 is a schematic flow chart of a 5G message scheduling method disclosed in an embodiment of the present application;

fig. 2 is a flow chart of another method for scheduling 5G messages according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a 5G message scheduling apparatus disclosed in an embodiment of the present application;

fig. 4 is a schematic structural diagram of another 5G message scheduling apparatus disclosed in an embodiment of the present application;

fig. 5 is a schematic structural diagram of a 5G message scheduling system according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

The terms first, second and the like in the description and in the claims, are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present application may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type and not limited to the number of objects, e.g., the first object may be one or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

The following describes in detail a method, an apparatus, and a system for scheduling 5G messages according to embodiments of the present application through specific embodiments and application scenarios thereof with reference to the accompanying drawings.

Fig. 1 is a flowchart of a method for scheduling 5G messages according to an embodiment of the present application, where the method may be performed by an electronic device, in other words, the method may be performed by software or hardware installed in the electronic device. As shown in fig. 1, a method for scheduling 5G messages disclosed in an embodiment of the present application may include the following steps:

s110: and receiving a target 5G message sent by the edge application server, wherein the target 5G message is sent to the edge application server after the first MaaP system receives the external service request of the user, and the target 5G message is used for requesting to access the external service.

When the terminal equipment monitors that the user performs preset operation on the 5G message page, the terminal equipment can send an external service request to the first map system, and at this time, the external service request can be an external service access request or an external service access request. For example, in a specific embodiment, the terminal device monitors that the user inputs "check flow" on the 5G message page, and considers that the user needs to request an external service at this time, and further, the terminal device may initiate an external service request to the first map system. The first map system, upon receiving the user external service request, may send the request (i.e., the target 5G message) to the edge application server.

After the target 5G message is sent to the edge application server through the first map system, the edge application server sends the target 5G message to the service scheduling auxiliary module, and the service scheduling auxiliary module processes the target 5G message forwarded by the edge application server.

It should be noted that the terminal device may be various electronic devices with a display screen, including, but not limited to, a desktop computer, a portable computer, a smart phone, a tablet computer, a camera, etc., and a client with multiple application programs installed on the terminal device may initiate an external service request through different clients to obtain a corresponding external service.

S120: and analyzing the target 5G message to determine the target category of the requested external service.

After the traffic scheduling assistance module receives the target 5G message, the traffic scheduling assistance module may parse the target 5G message to determine a target category of the requested external service.

S130: and determining a target category address corresponding to the target category according to a mapping relation between the category of the preset external service and the category address.

After determining the target category of the requested external service, determining the target category address corresponding to the target category based on the pre-constructed mapping relation between the category of the different external service and the corresponding category address.

S140: the destination address of the target 5G message is modified to the target category address.

After determining the destination category address, the destination address of the destination 5G message may be modified to the destination category address. Specifically, the URL (Uniform Resource Locator ) address in the target 5G message may be modified to a category address corresponding to the destination address of the target 5G message. Based on the modified URL address of the target 5G message, a modified target 5G message address may be obtained.

For example, when the external service request is a service for calling 10086 query traffic and the destination address of the service request for processing query traffic is < Chatbot-1>, the modified destination category address includes "service. Bj.10086.Cn/tool/< Chatbot-1>".

S150: and sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

After the modified target 5G message is sent to the edge application external service dispatcher, the edge application external service dispatcher may dispatch the 5G message to a designated edge application external server (i.e., a corresponding external server) according to the address in the modified target 5G message, and the designated edge application server may process the modified target 5G message, call an external service matched with the target 5G message, and return the external service to the terminal device.

A plurality of edge application external servers can be deployed under the edge application external service dispatcher, and different edge application external servers can process different types of external service requests.

In addition, when the external service is returned to the terminal equipment, the network address of the external server of the appointed edge application can be returned to the terminal equipment, and in this way, when the user needs to call the external service with the same service category as that in the target 5G message later, the external service can be directly called through the network address, so that the efficiency of the service access request is improved. The modification of the target 5G message by the service scheduling auxiliary module can be completely compatible with the original external service scheduling logic, so that the compatibility of the external service scheduling function can be ensured.

It should be noted that the edge computing platform includes: the edge computing platform is deployed at the network edge side close to the terminal equipment or the data source, and is connected with the first map system by utilizing the wireless access network, so that a service environment with high performance, low delay and high bandwidth can be created for the service and cloud computing functions required by the terminal equipment, and downloading of various contents, services and applications in the network can be accelerated, and a user enjoys uninterrupted high-quality network experience.

The embodiment of the application discloses a 5G message scheduling method, which is characterized in that a service scheduling auxiliary module is added in an edge computing platform, and the service scheduling auxiliary module modifies a destination address in a target 5G message into a target category address, so that after the edge application external service scheduler receives the modified target 5G message, the modified target 5G message can be distributed to a corresponding external server, and further the edge application external server can be appointed to perform effective and accurate scheduling on an external service request of terminal equipment, and further the external service access time delay of the terminal equipment can be reduced, and further the problem that the loading time delay is larger for the large-capacity external service requirement of the current 5G message platform is solved.

In one implementation, sending the modified target 5G message to an edge application external service scheduler includes:

and sending the modified target 5G message to an edge application server, and sending the modified target 5G message to an edge application external service scheduler by the edge application server.

After the service scheduling auxiliary module sends the modified target 5G message to the edge application server, the edge application server can send the modified target 5G message to the edge application external service scheduler, the edge application external service scheduler sends an external service request to the appointed edge application external server according to the address of the modified target 5G message, the appointed edge application external server processes the external service request, and then corresponding external service can be returned to the terminal equipment.

In order to modify the address of the target 5G message, in an implementation manner, before receiving the target 5G message sent by the edge application server, the external service provided by the external service provider may be classified to obtain external services with different types of purposes; and constructing different category addresses according to different categories, and establishing a mapping relation between the categories and the category addresses.

Specifically, the external services provided by the external service provider may be classified first, for example, the external services may be classified into shopping, entertainment, games, life, tools, and the like; then, different category addresses are built for different categories, such as shopping set to chopping, entertainment set to entertaining, game set to game, life set to life, and tool set to tool. Then, for external services of different types, the category address corresponding to the external service may be determined based on the category of each external service, and taking the external service as an example of shopping category, the set category address may be: service. Bj. Taobao. Cn/shoping; or service. Bj. Cn/chopping; taking the external service as a tool (e.g., 10086) as an example, a set type of destination address may be: service.bj.10086.Cn/tool, wherein "service.bj.taobao.cn", "service.bj.jd.cn", "service.bj.10086.Cn" are primary directories and the categories "tool", "chopping" are secondary directories. In order to more quickly access external services, the present application may also build multi-level subdirectories based on functional applications, such as building three-level directories, such as my favorites, recommendations, etc.

After the mapping relation between different categories and category addresses is built, the mapping relation can be stored in the service scheduling auxiliary module, and in this way, the user can conveniently inquire.

Fig. 2 is a flow chart of another 5G message scheduling method, and as shown in fig. 2, an embodiment of the present application discloses another 5G message scheduling method, which includes the following steps:

s210: the edge application server receives a target 5G message sent by the first MaaP system, wherein the target 5G message is sent to the edge application server after the first MaaP system receives an external service request of a user, and the target 5G message is used for requesting to access the external service.

After the terminal device initiates an external service request to the first map system, the first map system may send the target 5G message to the edge application server, and the edge application server receives the target 5G message.

S220: and sending the target 5G message to a service scheduling auxiliary module.

After the edge application server receives the target 5G message, the edge application server may send the target 5G message to the traffic scheduling assistance module, which may be modified by the traffic scheduling assistance module.

S230: and receiving a modified target 5G message returned by the service scheduling auxiliary module, wherein the destination address of the modified target 5G message is modified into a target category address corresponding to the category of the external service requested by the target 5G message.

The service scheduling auxiliary module may analyze the external service keyword included in the target 5G message to determine a target category of the requested external service, and after determining the target category of the requested external service, may determine a target category address corresponding to the target category based on a mapping relationship between a pre-constructed category of a different external service and a corresponding category address, so as to modify the target address of the target 5G message into the target category address, and the edge application external service scheduler receives the modified target 5G message returned by the service scheduling auxiliary module.

S240: and sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

The edge application external service dispatcher can dispatch the 5G message to a designated edge application external server according to the address in the modified target 5G message, and the designated edge application server can process the modified target 5G message, call an external service matched with the target 5G message and return the external service to the terminal equipment.

In this way, when the user needs to call the external service with the same category as the service in the target 5G message, the external service can be directly called through the network address, thereby improving the efficiency of the service access request.

In one implementation, before the edge application server receives the target 5G message sent by the first MaaP system, the method further includes the following steps:

the first MaaP system receives an external service request sent by the terminal device.

After the first map system receives the external service request sent by the terminal device, because different platform network operators may have different map systems, and the types of external services that can be provided by different map systems may be different, in order to improve user experience, in the case of different platform network operators, one implementation manner may be to implement external service scheduling of a cross-platform network operator through a network slicing manner.

The first MaaP system determines that the current platform network operator has the external service requested by the external service request, in this case, the cross-platform network operator is not required to implement the scheduling of the external service, and the first MaaP system may send the target 5G message to the edge application server, and may further execute the steps in fig. 1 or fig. 2.

In the case that the first MaaP system determines that the current platform network operator does not have the external service requested by the external service request, the first MaaP system acquires the operator information of the target platform having the external service requested by the external service request.

The first MaaP system sends feedback information to the terminal device, where the feedback information includes: operator information of the target platform and indication information indicating that the current platform does not have the external service requested by the external service request.

In an implementation manner, after the first MaaP system receives the external service request sent by the terminal device, and determines that the current platform network operator does not have the corresponding external service, the information of the target platform operator with the external service may be queried, and then a feedback message including the information that the current platform network operator does not have the external service and the target platform network operator is sent to the terminal device; the information of the target platform network operator comprises identification information of the target platform network operator and corresponding first MaaP system information. After the terminal device receives the feedback message sent by the first MaaP system, the target platform network operator with the requested external service may be determined based on the feedback message, and the current platform network operator is switched to the target platform network operator, so as to implement external service scheduling of the cross-platform network operator.

Specifically, first, the terminal device may initiate an access request to the public land mobile network for accessing the target platform network operator; the public land mobile network establishes roaming agreements with a plurality of network operators in advance, and the access request comprises identification information of a target platform network operator and information of a current platform network operator subscribed by the terminal equipment.

Secondly, after the public land mobile network receives an external service request sent by the terminal equipment, subscription data of the terminal equipment can be acquired from a unified data management module of a network operator platform to which the terminal equipment has subscribed through an AMF (Access and Mobility Management Function, access and mobility function) based on the request; wherein the subscription data includes network slice information supported by the subscribed network operator platform.

Finally, after the public land mobile network acquires the network slicing information contained in the subscription data, the network slicing information can be changed or updated into the slicing information corresponding to the target platform network operator, so that the current platform network operator is switched to the target platform network operator.

And after the terminal equipment detects that the switching of the target platform network operator is finished, an external service request can be sent to a second MaaP system corresponding to the target platform network operator. After the second MaaP system corresponding to the target platform network operator receives the external service request, the steps in fig. 1 or fig. 2 may be executed, so that external service scheduling of the cross-platform network operator may be implemented.

In addition, if the expense consumed in the external service calling process is to be calculated, whether the platform network operator of the terminal equipment is replaced in the external service calling process can be judged; if the terminal equipment is replaced, determining a platform network operator accessed by the terminal equipment for the first time and corresponding access accumulated first time length, and determining a replaced platform network operator and corresponding access accumulated second time length; then, based on the above information, the cost consumed by the process is determined by means of layered charging.

By the network slicing technology, external service scheduling of a cross-platform network operator can be realized, and the use experience of a user is improved.

Based on the above-mentioned 5G message scheduling method, the embodiment of the application discloses a 5G message scheduling apparatus 300, as shown in fig. 3, including:

the receiving module 310 is configured to receive a target 5G message sent by the edge application server, where the target 5G message is sent to the edge application server by the first MaaP system after receiving the external service request of the user, and the target 5G message is used to request access to an external service.

And the parsing module 320 is configured to parse the target 5G message and determine a target category of the requested external service.

The determining module 330 is configured to determine a target category address corresponding to the target category according to a mapping relationship between a category of the preset external service and the category address.

A modifying module 340, configured to modify the destination address of the target 5G message into a target category address.

And the sending module 350 is configured to send the modified target 5G message to the edge application external service scheduler, so that the edge application external service scheduler schedules the target 5G message to the corresponding external server.

The terminal equipment initiates an external service request to a first map system, the first map system sends a target 5G message to an edge application server after receiving the external service request, the edge application server sends the target 5G message to a service scheduling auxiliary module, and the service scheduling auxiliary module processes the target 5G message forwarded by the edge application server. Specifically, the service scheduling auxiliary module may parse the keywords of the external service included in the target 5G message, so as to determine the target category of the requested external service. After the target category of the requested external service is determined, the target category address corresponding to the target category is determined based on the pre-constructed mapping relation.

After determining the destination category address, the destination address of the destination 5G message may be modified to the destination category address. After the modified target 5G message is sent to the edge application external service dispatcher, the edge application external service dispatcher may dispatch the 5G message to a designated edge application external server according to the address in the modified target 5G message, and the designated edge application external server may process the modified target 5G message, call an external service matched with the target 5G message, and return the external service to the terminal device.

By adding the service scheduling auxiliary module in the edge computing platform, the service scheduling auxiliary module modifies the destination address in the target 5G message into the target category address, so that after the edge application external service scheduler receives the modified target 5G message, the modified target 5G message can be distributed to a corresponding external server, the edge application external server can be further appointed to effectively and accurately schedule the external service request of the terminal equipment, and the external service access delay of the terminal equipment can be further reduced.

Based on another 5G message scheduling method described above, another 5G message scheduling apparatus 400 is disclosed in the embodiments of the present application, as shown in fig. 4, and the apparatus includes:

the first receiving module 410 is configured to receive, by the edge application server, a target 5G message sent by the first MaaP system, where the target 5G message is sent by the first MaaP system to the edge application server after receiving a user external service request, and the target 5G message is used to request access to an external service;

a first sending module 420, configured to send the target 5G message to a service scheduling auxiliary module;

a second receiving module 430, configured to receive the modified target 5G message returned by the service scheduling auxiliary module, where a destination address of the modified target 5G message is modified to a target category address corresponding to a category of the external service requested by the target 5G message;

the second sending module 440 is configured to send the modified target 5G message to the edge application external service scheduler, so that the edge application external service scheduler schedules the target 5G message to the corresponding external server.

The service scheduling auxiliary module may analyze the external service keyword included in the target 5G message to determine a target category of the requested external service, and after determining the target category of the requested external service, may determine a target category address corresponding to the target category based on a mapping relationship between a pre-constructed category of a different external service and a corresponding category address, so as to modify the target address of the target 5G message into the target category address, and the edge application external service scheduler receives the modified target 5G message returned by the service scheduling auxiliary module.

The edge application external service dispatcher can dispatch the 5G message to a designated edge application external server according to the address in the modified target 5G message, and the designated edge application server can process the modified target 5G message, call an external service matched with the target 5G message and return the external service to the terminal equipment.

In this way, when the user needs to call the external service with the same category as the service in the target 5G message, the external service can be directly called through the network address, thereby improving the efficiency of the service access request.

The scheduling device in the embodiment of the present application may be a device, or may be a component, an integrated circuit, or a chip in an electronic device.

The scheduling device in the embodiment of the present application may be a device having an operating system. The operating system may be an Android operating system, an ios operating system, or other possible operating systems, which are not specifically limited in the embodiments of the present application.

The scheduling apparatus provided in the embodiments of the present application can implement each process implemented in the embodiments of the methods of fig. 1 to 2, and in order to avoid repetition, a description is omitted here.

The embodiment of the application discloses a 5G message scheduling system 500, as shown in fig. 5, the system at least includes: a first map system 510, an edge application server 520, a traffic scheduling assistance module 530, and an edge application external service scheduler 540, wherein,

the first map system 510 is configured to send a target 5G message to the edge application server 520 after receiving an external service request from a user, where the target 5G message is used to request access to an external service.

The edge application server 520 is configured to send the target 5G message to the traffic scheduling assistance module 530 after receiving the target 5G message.

The service scheduling auxiliary module 530 is configured to parse the target 5G message and determine a target category of the external service requested; determining a target category address corresponding to the target category according to a mapping relation between the category of the preset external service and the category address; the destination address of the target 5G message is modified to the target category address and the modified target 5G message is sent to the edge application external service scheduler 540.

The edge application external service scheduler 540 is configured to schedule the target 5G message to a corresponding external server.

In this way, the service scheduling auxiliary module 530 may modify the destination address in the target 5G message into the target category address, so that after the edge application external service scheduler 540 receives the modified target 5G message, the modified target 5G message may be distributed to the corresponding external server, and further the edge application external server may be designated to perform effective and accurate scheduling on the external service request of the terminal device, so as to reduce the external service access delay of the terminal device, and further solve the problem that the loading delay of the current 5G message platform for the large-capacity external service requirement is larger.

In a further technical solution, the first map system 510 is further configured to:

in case it is determined that the current platform network operator is provided with the external service requested by the external service request, sending the external service request to the edge application server 520;

and under the condition that the current platform network operator does not have the external service requested by the external service request, acquiring the operator information of the target platform having the external service requested by the external service request, and sending feedback information to the terminal equipment.

And the terminal equipment is used for sending an external service request to a second Maap system corresponding to the target platform network operator.

In this way, not only the external service scheduling of the same platform network operator but also the external service scheduling of the cross-platform network operator can be realized. After the terminal equipment detects that the switching of the target platform network operator is finished, an external service request can be sent to a second Maap system corresponding to the target platform network operator, so that external service scheduling of the cross-platform network operator can be realized.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Furthermore, it should be noted that the scope of the methods and apparatus in the embodiments of the present application is not limited to performing the functions in the order shown or discussed, but may also include performing the functions in a substantially simultaneous manner or in an opposite order depending on the functions involved, e.g., the described methods may be performed in an order different from that described, and various steps may also be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.

In the embodiments described above, the differences between the embodiments are mainly described, and as long as there is no contradiction between the different optimization features between the embodiments, the different optimization features may be combined to form a better embodiment, and in consideration of brevity of line text, the description is omitted here.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and changes may be made to the present application by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc. which are within the spirit and principles of the present application are intended to be included within the scope of the claims of the present application.

Claims (10)

1. A 5G message scheduling method, the method comprising:

the service scheduling auxiliary module receives a target 5G message sent by an edge application server, wherein the target 5G message is sent to the edge application server after receiving an external service request of a user by a first MaaP system, and the target 5G message is used for requesting to access external service;

analyzing the target 5G message, and determining the target category of the requested external service;

determining a target category address corresponding to the target category according to a mapping relation between a preset category of external service and the category address;

modifying the destination address of the target 5G message into the target category address;

and sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

2. The method of claim 1, wherein said sending the modified target 5G message to an edge application external service scheduler comprises:

and sending the modified target 5G message to the edge application server, and sending the modified target 5G message to an edge application external service scheduler by the edge application server.

3. The method according to claim 1 or 2, characterized in that before receiving the target 5G message sent by the edge application server, the method further comprises:

classifying external services provided by external service providers to obtain external services with different types of purposes;

and constructing different category addresses according to different categories, and establishing a mapping relation between the categories and the category addresses.

4. A 5G message scheduling method, the method comprising:

the method comprises the steps that an edge application server receives a target 5G message sent by a first MaaP system, wherein the target 5G message is sent to the edge application server after the first MaaP system receives a user external service request, and the target 5G message is used for requesting to access external services;

the target 5G message is sent to a service scheduling auxiliary module;

receiving a modified target 5G message returned by the service scheduling auxiliary module, wherein the destination address of the modified target 5G message is modified into a target category address corresponding to the category of the external service requested by the target 5G message;

and sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

5. The method according to claim 4, wherein before the edge application server receives the target 5G message sent by the first MaaP system, the method further comprises:

the first MaaP system receives an external service request sent by the terminal equipment;

the first MaaP system determines that the current platform network operator has the external service requested by the external service request;

and the first MaaP system sends the 5G message to the edge application server.

6. The method of claim 5, wherein the method further comprises:

under the condition that the first MaaP system determines that the current platform network operator does not have the external service requested by the external service request, the first MaaP system acquires the operator information of a target platform having the external service requested by the external service request;

the first MaaP system sends feedback information to the terminal device, where the feedback information includes: and the operator information of the target platform and the indication information indicating that the current platform does not have the external service requested by the external service request.

7. A 5G message scheduling apparatus, the apparatus comprising:

the receiving module is used for receiving a target 5G message sent by an edge application server, wherein the target 5G message is sent to the edge application server after receiving an external service request of a user by a first MaaP system, and the target 5G message is used for requesting to access external service;

the analysis module is used for analyzing the target 5G message and determining the target category of the requested external service;

the determining module is used for determining a target category address corresponding to the target category according to a mapping relation between the category of the preset external service and the category address;

the modifying module is used for modifying the destination address of the target 5G message into the target category address;

and the sending module is used for sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

8. A 5G message scheduling apparatus, the apparatus comprising:

the first receiving module is used for receiving a target 5G message sent by a first MaaP system by an edge application server, wherein the target 5G message is sent to the edge application server after the first MaaP system receives a user external service request, and the target 5G message is used for requesting to access external services;

the first sending module is used for sending the target 5G message to the service scheduling auxiliary module;

the second receiving module is used for receiving the modified target 5G message returned by the service scheduling auxiliary module, wherein the destination address of the modified target 5G message is modified into a target category address corresponding to the category of the external service requested by the target 5G message;

and the second sending module is used for sending the modified target 5G message to an edge application external service scheduler so that the edge application external service scheduler schedules the target 5G message to a corresponding external server.

9. A 5G message scheduling system, comprising: the system comprises a first map system, an edge application server, a business scheduling auxiliary module and an edge application external service scheduler, wherein,

the first map system is configured to send a target 5G message to the edge application server after receiving an external service request of a user, where the target 5G message is used to request access to an external service;

the edge application server is used for sending the target 5G message to the service scheduling auxiliary module after receiving the target 5G message;

the service scheduling auxiliary module is used for analyzing the target 5G message and determining the target category of the requested external service; determining a target category address corresponding to the target category according to a mapping relation between a preset category of external service and the category address; modifying the destination address of the target 5G message into the target category address, and sending the modified target 5G message to an edge application external service scheduler;

and the edge application external service dispatcher is used for dispatching the target 5G message to a corresponding external server.

10. The system of claim 9, wherein the system further comprises a controller configured to control the controller,

the first map system is further configured to:

sending the external service request to the edge application server under the condition that the current platform network operator is determined to be provided with the external service requested by the external service request;

acquiring the operator information of a target platform with the external service requested by the external service request and sending feedback information to terminal equipment under the condition that the current platform network operator does not have the external service requested by the external service request;

the terminal device is configured to send the external service request to a second map system corresponding to the target platform network operator.

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