CN113079206B

CN113079206B - Terminal scene application automatic configuration method, MEC server and user terminal

Info

Publication number: CN113079206B
Application number: CN202110319345.3A
Authority: CN
Inventors: 陈蛟
Original assignee: China United Network Communications Group Co Ltd
Current assignee: China United Network Communications Group Co Ltd
Priority date: 2021-03-25
Filing date: 2021-03-25
Publication date: 2022-11-01
Anticipated expiration: 2041-03-25
Also published as: CN113079206A

Abstract

The disclosure provides a terminal scene application automatic configuration method, an MEC, a terminal, a computer device and a storage medium, wherein the method comprises the following steps: the MEC acquires a user identification list of the application needing to be installed in a scene, an application list corresponding to each user identification and configuration parameter requirements corresponding to each application; receiving a user identifier sent by a user terminal; creating a virtual space for the user, installing each scene application in a scene application list corresponding to the user identification in the virtual space, and configuring corresponding network parameters for each scene application respectively; receiving an access request sent by a terminal; and transmitting the interface of the virtual space created for the user back to the terminal through remote connection so that the terminal remotely operates the scene application installed in the virtual space created for the terminal. The technical scheme disclosed by the invention reduces the APP installation amount and configuration difficulty of the terminal held by the user, protects the safety of the user scene service data, and improves the use experience of the user.

Description

Terminal scene application automatic configuration method, MEC server and user terminal

Technical Field

The disclosure belongs to the technical field of communication, and particularly relates to a terminal scene application automatic configuration method, an MEC server, a user terminal, a computer device, and a computer readable storage medium.

Background

With the increasing abundance of applications installed on mobile terminals, more and more scene activities such as work, life, and study are performed depending on APP (abbreviation of Application) of the terminal. However, in each current scenario, different APPs (such as an office APP, a learning APP, and a living APP), different network access permissions (such as an enterprise APP can only access a specific office network and does not allow data transmission through the internet), and different data permissions (partially sensitive data is not allowed to be stored on a mobile phone) need to be used, a user needs to install a large number of APPs on a terminal, configure different permissions and network parameters, and store related data on the terminal or a service.

In this way, various special APPs and a large amount of data (such as videos, pictures and enterprise documents) installed on the terminal occupy the terminal storage space of the user, and the terminal running speed is reduced; moreover, personal application/data and special application/data are on an uninsulated system, which is easy to cause data leakage (such as sending enterprise information to own chat software by mistake or sending own private information/entertainment information to enterprise application); meanwhile, the configuration of network parameters is complex, and a common user may not be able to configure accurately, which causes difficulty in using a dedicated APP and also affects the performance of the terminal and the user experience.

Disclosure of Invention

The utility model provides a terminal scene uses automatic configuration method, MEC server, user terminal, computer equipment and storage medium, has reduced the APP installation volume and the configuration degree of difficulty of the terminal that the user held, has protected user scene business data safety to user's use experience has been promoted.

In a first aspect, an embodiment of the present disclosure provides a method for automatically configuring a terminal-based application scenario, which is applied to an MEC server, and includes:

acquiring a user identification list needing to install the scene application, a scene application list corresponding to each user identification and a configuration parameter requirement corresponding to each scene application;

receiving a user identifier sent by a user terminal through an access point after the user terminal enters an MEC server coverage area;

creating a virtual space for the user based on a virtual environment of a mobile phone system, installing each scene application in a scene application list corresponding to the received user identification in the virtual space, and configuring corresponding network parameters for each scene application respectively based on configuration parameter requirements corresponding to each scene application;

receiving a scene application access request sent by the user terminal;

and returning an interface of the virtual space created for the user to the user terminal through remote connection based on the access request of the scenized application, so that the user terminal remotely operates the scenized application installed in the virtual space created for the user terminal through the interface.

Further, the acquiring a user identifier list to which the scenized applications need to be installed, the scenized application list corresponding to each user identifier, and the configuration parameter requirements corresponding to each scenized application include:

receiving a management application sent by each scene application management server, wherein the management application comprises each user identifier added to scene management, each scene application and a configuration parameter requirement corresponding to each scene application;

respectively sending a confirmation message of automatic access scene management to each user terminal according to each user identifier added in the scene management;

receiving access confirmation information sent by each user terminal, and forming a user identification list needing to install the scenized applications, a scenized application list corresponding to each user identification and a configuration parameter requirement corresponding to each scenized application according to the user identification of each user terminal sending the access confirmation information, each scenized application in all management applications with the user identification and the configuration parameter requirement corresponding to each scenized application.

Further, the method further comprises:

creating a scene application user information table;

and adding a user identification list of the scene application to be installed, a scene application list corresponding to each user identification and configuration parameter requirements of each scene application into the scene application user information table.

Further, after receiving the user identifier sent by the user terminal through the access point after entering the coverage area of the MEC server, the method further includes:

judging whether the received user identification is in the scene application user information table or not;

and if so, applying to the scenized application management server for obtaining an installation program of the scenized application, and executing a step of creating a virtual space for the user based on the virtual environment of the mobile phone system.

Further, the scenized application access request includes a user identifier;

the method further comprises the following steps:

after receiving a scenized application access request sent by the user terminal, judging whether a user identifier in the scenized application access request is in the scenized application user information table;

and if so, executing a step of returning an interface of the virtual space created for the user to the user terminal through remote connection based on the scenized application access request.

Further, the method further comprises:

when the user terminal remotely operates the scene application installed in the virtual space created by the user terminal through the interface, if the scene application installed in the virtual space has a data request, the data request is sent to a scene application management server according to the network parameter configuration of the scene application;

and receiving a feedback result returned by the scene application management server, and returning the feedback result to the user terminal through remote connection.

In a second aspect, an embodiment of the present disclosure provides a method for automatically configuring a terminal-based application, where the method is applied to a user terminal, and the method includes:

after entering the coverage area of the MEC server, sending a user identifier to the MEC server through an access point, so that the MEC server creates a virtual space for the user based on a virtual environment of a mobile phone system after receiving the user identifier, installs each scenized application in a scenized application list corresponding to the received user identifier in the virtual space, and configures corresponding network parameters for each scenized application, wherein the corresponding scenized application list and the corresponding network parameters are obtained from a user identifier list needing to install the scenized application, a scenized application list corresponding to each user identifier and configuration parameter requirements corresponding to each scenized application, which are obtained in advance by the MEC server;

sending a scenized application access request to an MEC server so that the MEC server transmits an interface of a virtual space created for the user back to the user terminal through remote connection based on the scenized application access request;

and remotely operating the scene application installed in the virtual space created by the MEC server for the user terminal through the interface.

In a third aspect, an embodiment of the present disclosure provides an MEC server, including:

the system comprises an acquisition module, a configuration module and a display module, wherein the acquisition module is used for acquiring a user identification list of the scene application needing to be installed, a scene application list corresponding to each user identification and a configuration parameter requirement corresponding to each scene application;

the first receiving module is arranged to receive a user identifier sent by a user terminal through an access point after the user terminal enters an MEC server coverage area;

the creating module is set to create a virtual space for the user based on a virtual environment of a mobile phone system, install each scenized application in a scenized application list corresponding to the received user identifier in the virtual space, and configure corresponding network parameters for each scenized application respectively based on the configuration parameter requirements corresponding to each scenized application;

the first receiving module is also configured to receive a scene application access request sent by a user terminal;

and the first sending module is configured to send back an interface of the virtual space created for the user terminal to the user terminal through remote connection based on the scenized application access request, so that the user terminal remotely operates the scenized application installed in the virtual space created for the user terminal through the interface.

In a fourth aspect, an embodiment of the present disclosure provides a user terminal, including:

a second sending module, configured to send a user identifier to the MEC server through an access point after a user terminal enters a coverage area of the MEC server, so that the MEC server creates a virtual space for the user based on a virtual environment of a mobile phone system after receiving the user identifier, installs each scenized application in a scenized application list corresponding to the received user identifier in the virtual space, and configures corresponding network parameters for each scenized application, where the corresponding scenized application list and the corresponding network parameters are obtained from a user identifier list, which is obtained by the MEC server in advance, where the scenized application needs to be installed, a scenized application list, which corresponds to each user identifier, and configuration parameter requirements corresponding to each of the scenized applications;

the second sending module is further configured to send a scenarized application access request to the MEC server, so that the MEC server returns an interface of a virtual space created for the user to the user terminal through remote connection based on the scenarized application access request;

and the remote operation module is used for remotely operating the scene application installed in the virtual space created by the MEC server for the user terminal through the interface.

In a fifth aspect, embodiments of the present disclosure further provide a computer device, which includes a memory and a processor, where the memory stores a computer program, and when the processor runs the computer program stored in the memory, the processor executes the terminal-scoped application auto-configuration method according to any one of the first aspect and the second aspect.

In a sixth aspect, this disclosed embodiment also provides a computer-readable storage medium, including: computer program, which when run on a computer, causes the computer to perform the terminal-scenario application auto-configuration method as described in any of the first and second aspects.

Has the beneficial effects that:

according to the terminal scene application automatic configuration method, the MEC server, the user terminal, the computer equipment and the storage medium, the MEC server obtains a user identification list needing to install scene applications, a scene application list corresponding to each user identification and configuration parameter requirements corresponding to each scene application; receiving a user identifier sent by the user terminal through the access point after the user terminal enters the coverage area of the MEC server; creating a virtual space for the user based on a virtual environment of a mobile phone system, installing each scene application in a scene application list corresponding to the received user identification in the virtual space, and configuring corresponding network parameters for each scene application respectively based on the configuration parameter requirements corresponding to each scene application; then receiving a scene application access request sent by the user terminal; and returning an interface of the virtual space created for the user to the user terminal through remote connection based on the access request of the scenized application, so that the user terminal remotely operates the scenized application installed in the virtual space created for the user terminal through the interface. According to the technical scheme, the flows of scene recognition, APP virtual installation, network automatic matching and the like are established and completed through the edge access advantages and the storage and the technical capacity of the MEC, a user does not need to install a large number of APPs and can use the APPs without configuring corresponding parameters, the APP installation amount and the configuration difficulty of a terminal held by the user are reduced, the safety of user scene service data is protected, and the use experience of the user is improved.

Drawings

Fig. 1 is a schematic flowchart of automatic configuration of a terminal-based application scenario according to an embodiment of the present disclosure;

fig. 2 is a diagram of a MEC network structure provided in the first embodiment of the present disclosure;

fig. 3 is a schematic flowchart of a method for automatically configuring a terminal-based scene application according to a second embodiment of the present disclosure;

fig. 4 is an architecture diagram of an MEC server provided in a third embodiment of the present disclosure;

fig. 5 is an architecture diagram of a user terminal according to a fourth embodiment of the present disclosure;

fig. 6 is an architecture diagram of a computer device according to a fifth embodiment of the present disclosure.

Detailed Description

In order to make the technical solutions of the present disclosure better understood by those skilled in the art, the present disclosure is further described in detail below with reference to the accompanying drawings and examples.

In which the terminology used in the embodiments of the disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in the disclosed embodiments and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

The current scene application main process is as follows: a user installs special software (such as enterprise-specific APP, customized version software, a website) or configures specific network configuration (VPN, DNS and the like) on a terminal (such as a mobile phone, a platform and the like) of the user; the user operates special software or configures network parameters, interacts with a scene application management server (such as enterprise office or communication, enterprise project management, school teaching system and the like), and related data is stored on a terminal or a service. The terminal needs to install various APPs and configure various parameters, and data leakage is easily caused.

The following describes the technical solutions of the present disclosure and how to solve the above problems in detail with specific examples. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments.

Fig. 1 is a schematic flowchart of a method for automatically configuring a terminal-based application in a scene according to an embodiment of the present disclosure, which is applied to an MEC server, and as shown in fig. 1, the method includes:

step S101: acquiring a user identification list needing to install the scenized applications, a scenized application list corresponding to each user identification and configuration parameter requirements corresponding to each scenized application;

step S102: receiving a user identifier sent by a user terminal through an access point after the user terminal enters an MEC server coverage area;

step S103: creating a virtual space for the user based on a virtual environment of a mobile phone system, installing each scene application in a scene application list corresponding to the received user identification in the virtual space, and configuring corresponding network parameters for each scene application respectively based on configuration parameter requirements corresponding to each scene application;

step S104: receiving a scene application access request sent by the user terminal;

step S105: and returning an interface of the virtual space created for the user to the user terminal through remote connection based on the access request of the scenized application, so that the user terminal remotely operates the scenized application installed in the virtual space created for the user terminal through the interface.

The respective bodies mentioned in the present embodiment are explained below, in which,

a terminal: the device used by the user can generally install various APPs so as to use corresponding services.

The access point: and the wireless or wired access point is commonly a Wi-Fi or 2G/3G/4G/5G base station.

And MEC: the edge server accessed by the current terminal provides storage, calculation and other capabilities, is provided with an APP management application, is used for realizing a scene-based automatically-configured service bearer, and can be the same physical entity with the MEC; the method mainly saves a related data information table, a virtual operating system of the mobile phone and a virtual application function.

A scene application management mechanism: entities with special requirements for user terminal usage (e.g. installation of a specific APP, use of a special encryption capability or network configuration), such as enterprises, schools; it can receive the request or operation of the user and return the corresponding result (for example, the user sends query enterprise business data, the scene management can return the corresponding data required by the user).

The MEC server runs at the edge of the network, is logically independent of other parts of the network, and the safety performance of the MEC server can be ensured; in addition, the server of the MEC generally has a high computational power and is therefore suitable for analyzing and processing large amounts of data and tasks; meanwhile, as the MEC is very close to the user or the information source geographically, the time delay of the network for responding to the user request is small, and the possibility of network congestion generated by the transmission network and the core network is also reduced; moreover, the MEC located at the edge of the network can acquire network data such as base station ID, available bandwidth and the like and information related to the user location in real time, so as to perform link-aware adaptation, and provide the possibility of deployment for location-based applications, which can greatly improve the service quality experience of the user.

As shown in fig. 2, a user accesses a Radio Access Network (RAN), connects to an MEC server through an evolved Node B (eNode B, also called a base station), and connects to a core Network through a collection Node. MEC servers are deployed near users or information sources, pushing services towards the edge of the network.

The MEC server is deployed at the edge of a network, user identifications (including mobile phone numbers, IMEIs and other identifications which uniquely represent terminal identities), the scenized applications corresponding to the user identifications and the configuration parameter (such as VPN, DNS and the like) requirements corresponding to the scenized applications are acquired through active application of a user or acquisition of user identifications (including mobile phone numbers, IMEIs and other identifications which uniquely represent terminal identities) of various scenized application management mechanisms from servers (such as enterprise office or communication systems, enterprise project management systems, school teaching systems and the like) of various scenized application management mechanisms, so that the various scenized applications which need to be installed at each user terminal and the configuration requirements of each scenized application are acquired, and the MEC server acquires the scenized application management server corresponding to each scenized application; when a user moves to an MEC coverage area, a terminal initiates a cell update or first residence process, after a user identifier is sent to an MEC server through an access point, an APP management application in the MEC server creates a virtual space (virtual terminal system) of the user through a mobile phone system virtual environment, installs a scenized APP corresponding to the user, configures network parameters corresponding to each APP (for example, a specific VPN channel and a specific route are used for the APPs), and sends a virtual environment creation completion notice to a user terminal; therefore, the terminal can use the scene application through the MEC server, a specific APP and WEB are installed in the user terminal, the MEC service portal can be accessed, after the MEC server receives the scene application access request sent by the user terminal, the identity of the user is judged, the user is positioned in the virtual space of the user, and the virtual space interface is returned to the terminal through a remote desktop/remote control protocol; the user terminal performs data transmission with APP application management through an APP, a WEB visual interface operating system or a virtual scene APP (such as clicking, selecting, up/down sliding, backing and the like) and a remote desktop/remote control protocol; a mobile phone simulator managed by the APP in the MEC server executes virtual operation in a virtual space of a user; and the user checks or continues to operate through the display results of the APP, the WEB display system or the scene APP. The virtual space can use the existing virtual simulation technology, such as android virtualization or a simulator, an android mobile phone can be simulated in a computer or a server, and the android simulator can realize the functions of keyboard mapping, simulated positioning, assistance and the like. The problems that different APPs, network access authorities and data authorities need to be used in each scene, a large number of APPs need to be installed by a user, different authorities and network parameters need to be configured, data are unsafe and performance of a terminal is affected are solved by carrying out terminal scene application automatic configuration in the MEC server.

Further, the obtaining a list of user identifiers for which the scenized applications need to be installed, where the list of the scenized applications respectively corresponds to each user identifier and the configuration parameter requirements corresponding to each of the scenized applications include:

respectively sending confirmation information for automatically accessing the scene management to each user terminal according to each user identifier added in the scene management;

The method comprises the steps that a management application sent by each scene application management server is received, user identification (such as user identification of enterprise staff, user identification of school teachers and the like) added into scene management, an ID of a scene application needing to be used and configuration requirements of each application are obtained, an MEC server judges whether the user identification in the management application is authorized or not, if not, a confirmation message of automatic access scene management is sent to a user terminal corresponding to the user identification, after the user confirms, data integration is carried out according to all the management applications, and the user identification, a corresponding application list and the configuration parameter requirements corresponding to each application are matched. And if a new scene application management server sends a management application containing the user identifier of the user after the user is confirmed, directly adding each scene application in the new management application into a scene application list corresponding to the user identifier of the user.

Further, the method further comprises:

creating a scene application user information table;

and adding a user identification list needing to install the scene application, a scene application list corresponding to each user identification and the configuration parameter requirements of each scene application into the scene application user information table.

The method comprises the steps that an MEC server creates a user information table which comprises user identifications, application lists corresponding to the user identifications and configuration parameter requirements corresponding to the applications, data in the user information table are obtained after management applications sent by scene application management servers are received, each scene application management server sends the user identifications added into scene management, IDs of scene applications needing to be used and the configuration requirements of the applications to the MEC server, the MEC server carries out data integration after confirming to users, the user identifications, the corresponding application lists and the configuration parameter requirements corresponding to the applications are matched and updated to the user information table, and the specific format of the user information table can be as shown in the following table 1.

Table 1: user information table

The MEC server can establish a virtual space of a user according to the user information table, install all scene applications required by the user in the virtual space, and automatically configure parameters of all applications.

Preferably, the MEC server may further create a scenario management mechanism information table, which includes a mechanism name, a scenario APP table that needs to be used, a scenario APP configuration parameter table, a mobile phone number list that can be added to the scenario management, and the like, and a specific format of the scenario management mechanism information table may be as shown in table 2 below.

Table 2: scene management organization information table

The information of each scene management mechanism can be well managed through the scene management mechanism information table, then the MEC server sends a confirmation message for automatically accessing the scene management to the mobile phone numbers in each mobile phone number list in the scene management mechanism information table, the user is prompted to automatically access the scene application management after the confirmation message is sent through a short message, a multimedia message, APP information and the like, and the user is required to confirm whether to add the scene application management; and after confirming the joining, the user joins the mobile phone number and the IMEI of the user into a scene management user information table, and acquires all corresponding application lists and configuration parameters corresponding to the applications in the scene management mechanism information table according to the mobile phone number of the user. The scene management mechanism information table and the user information table provide a data basis for automatic configuration, identification and management of the terminal scene application.

After a user information table is established, whether a user joins in scene application management or not can be judged through the user information table, and after the scene application management of an MEC server is operated, a user terminal carries out cell updating or first resides in a base station in the coverage area of the MEC server, and when the MEC server is accessed through a specific APP, the mobile phone number and IMEI of the terminal can be sent to the MEC server through an access point; and the MEC server judges whether the user identification of the user is in a user information table, namely whether the scenized application management is added, if so, the MEC server applies to each scenized application management server to acquire an installation program of the scenized application according to the user information table, and then the MEC server performs the operations of creating the virtual space of the user and installing the scenized application.

Further, the scenized application access request includes a user identifier;

the method further comprises the following steps:

and if so, executing a step of returning an interface of the virtual space created for the user to the user terminal through remote connection based on the scenized application access request. After a user sends a scenario application access request to an MEC server through a specific APP and WEB access MEC service portal, whether a user identifier is in a user information table is judged, if yes, a virtual space of the user is created in the MEC server, each scenario application is installed and configured, and the MEC server returns a virtual space interface of the user terminal to the user terminal through remote connection.

Further, the method further comprises:

and receiving a feedback result returned by the scene application management server, and returning the feedback result to the user terminal through remote connection. When a user terminal remotely operates a scenario application installed in a corresponding virtual space, a mobile phone simulator managed by an APP application in an MEC server executes a virtual operation in the virtual space of a user, such as a system or a virtual APP has a data request, and sends the data request to a scenario management server according to previous network parameter configuration; the scene management server executes according to the data request and returns a result; displaying a data feedback result by the virtual space or scene APP managed by the APP, and returning the data feedback result to the user terminal through the remote desktop; and the user checks or continues to operate through the display results of the APP, the WEB display system or the virtual scene APP.

The method and the device have the advantages that the flows of scene recognition, APP virtual installation, network automatic matching and the like are established and completed through the edge access advantages and the storage and the technical capacity of the MEC, a user does not need to install a large number of APPs and can use the APPs without configuring corresponding parameters, the APP installation amount and the configuration difficulty of a terminal held by the user are reduced, the safety of user scene service data is protected, and the use experience of the user is improved

Fig. 3 is a schematic flowchart of a method for automatically configuring a terminal-based application in a scenario, which is applied to a user terminal and shown in fig. 3, and includes:

step S201: after entering the coverage area of the MEC server, sending a user identifier to the MEC server through an access point, so that the MEC server creates a virtual space for the user based on a virtual environment of a mobile phone system after receiving the user identifier, installs each scenized application in a scenized application list corresponding to the received user identifier in the virtual space, and configures corresponding network parameters for each scenized application, wherein the corresponding scenized application list and the corresponding network parameters are obtained from a user identifier list needing to install the scenized application, a scenized application list corresponding to each user identifier and configuration parameter requirements corresponding to each scenized application, which are obtained in advance by the MEC server;

step S202: sending a scenized application access request to an MEC server so that the MEC server transmits an interface of a virtual space created for the user back to the user terminal through remote connection based on the scenized application access request;

step S203: and remotely operating the scene application installed in the virtual space created by the MEC server for the user terminal through the interface.

Further, the method further comprises:

receiving a confirmation message of automatic access scene management sent by an MEC server, wherein the confirmation message of automatic access scene management is sent by the MEC server after receiving a management application sent by a scene application management server, and the management application comprises user identifications added to scene management, names of scene application management mechanisms, scene applications and corresponding configuration parameter requirements;

and sending an access confirmation message to the MEC server, so that the MEC server forms a user identifier list needing to install the scenized applications, a scenized application list corresponding to each user identifier and a configuration parameter requirement corresponding to each scenized application according to the user identifier of each user terminal sending the access confirmation message, each scenized application in all management applications with the user identifier and the configuration parameter requirement corresponding to each scenized application.

Further, the method further comprises:

and receiving a feedback result sent by the MEC server, wherein the feedback result is that the user terminal remotely operates the scenized application installed in the corresponding virtual space, and when the scenized application installed in the virtual space has a data request, the MEC server sends the data request to the scenized application management server according to the network parameter configuration of the application, and the scenized application management server returns the data request to the MEC server.

Fig. 4 is an architecture diagram of an MEC server according to a third embodiment of the present disclosure, as shown in fig. 4, including:

an obtaining module 11, configured to obtain a user identifier list in which the scenized applications need to be installed, a scenized application list corresponding to each user identifier, and a configuration parameter requirement corresponding to each of the scenized applications;

a first receiving module 12, configured to receive a user identifier sent by a user terminal through an access point after entering a coverage area of an MEC server;

a creating module 13 configured to create a virtual space for the user based on a virtual environment of the mobile phone system, install each scenized application in the scenized application list corresponding to the received user identifier in the virtual space, and configure corresponding network parameters for each scenized application based on configuration parameter requirements corresponding to each scenized application;

the first receiving module 12 is further configured to receive a scenarized application access request sent by a user terminal;

a first sending module 14, configured to transmit an interface of the virtual space created for the user terminal back to the user terminal through a remote connection based on the scenized application access request, so that the user terminal remotely operates the scenized application installed in the virtual space created for the user terminal through the interface.

Further, the obtaining module 11 is specifically configured to:

receiving, by the first receiving module 12, a management application sent by each scenarized application management server, where the management application includes each user identifier added to the scenarized management, each scenarized application, and a configuration parameter requirement corresponding to the application;

according to the user identifications added to the scene management, respectively sending a confirmation message of automatically accessing the scene management to each user terminal through the first sending module 14;

after the first receiving module 12 receives the access confirmation information sent by each user terminal, a user identifier list requiring installation of the scenized applications, a scenized application list corresponding to each user identifier, and a configuration parameter requirement corresponding to each scenized application are formed according to the user identifier of each user terminal sending the access confirmation information and each scenized application and its corresponding configuration parameter requirement in all management applications having the user identifier.

Further, the creating module 13 is further configured to create a scenized application user information table; and (c) a second step of,

Further, the MEC server further comprises a determining module 15,

the judging module 15 is configured to judge whether the received user identifier is in the scenized application user information table;

the obtaining module 11 is further configured to, if the determining module 15 determines that the received user identifier is in the scenized application user information table, apply to the scenized application management server for obtaining an installation program of the scenized application, and enable the creating module 13 to perform a step of creating a virtual space for the user based on the virtual environment of the mobile phone system.

Further, the scenized application access request includes a user identifier;

the MEC server further comprises a judging module 15:

the judging module is configured to judge whether a user identifier in the scenized application access request is in the scenized application user information table after the first receiving module 12 receives the scenized application access request sent by the user terminal;

if so, the first sending module 14 is caused to execute the step of returning the interface of the virtual space created for the user to the user terminal through the remote connection based on the scenized application access request.

Further, the first sending module 14 is further configured to, when the user terminal remotely operates the scenized application installed in the virtual space created by the user terminal through the interface, send the data request to the scenized application management server according to the network parameter configuration of the scenized application if the scenized application installed in the virtual space has the data request;

the first receiving module 12 is further configured to receive a feedback result returned by the scenized application management server, and enable the first sending module 14 to return the feedback result to the user terminal through a remote connection.

Fig. 5 is an architecture diagram of a user terminal according to a fourth embodiment of the present disclosure, as shown in fig. 5, including:

a second sending module 21, configured to send a user identifier to the MEC server through an access point after the user terminal enters the MEC server coverage area, so that the MEC server creates a virtual space for the user based on the virtual environment of the mobile phone system after receiving the user identifier, installs each scenized application in a scenized application list corresponding to the received user identifier in the virtual space, and configures corresponding network parameters for each scenized application, where the corresponding scenized application list and corresponding network parameters are obtained from a user identifier list to be installed with the scenized application, a scenized application list corresponding to each user identifier, and configuration parameter requirements corresponding to each of the scenized applications, where the user identifier list is obtained in advance by the MEC server;

the second sending module 21 is further configured to send a scenarized application access request to the MEC server, so that the MEC server returns an interface of a virtual space created for the user to the user terminal through remote connection based on the scenarized application access request;

and the remote operation module 22 is used for remotely operating the scenized application installed in the virtual space created by the MEC server for the user terminal through the interface.

Further, the user terminal further includes a second receiving module 23:

the second receiving module 23 is configured to receive a confirmation message of automatic access scenario management sent by the MEC server, where the confirmation message of automatic access scenario management is sent by the MEC server after receiving a management application sent by the scenario application management server, and the management application includes each user identifier, a scenario application management mechanism name, each scenario application, and a configuration parameter requirement corresponding to each scenario application;

the second sending module 21 is further configured to send an access confirmation message to the MEC server, so that the MEC server forms a user identifier list in which the scenized applications need to be installed, a scenized application list corresponding to each user identifier, and a configuration parameter requirement corresponding to each scenized application therein according to the user identifier of each user terminal that sends the access confirmation message and each scenized application and a configuration parameter requirement corresponding to each scenized application in all management applications having the user identifier.

Further, the user terminal further includes a second receiving module 23;

the second receiving module 23 is configured to receive a feedback result sent by the MEC server, where the feedback result is a result obtained by remotely operating a scenized application installed in a virtual space corresponding to the user terminal by the user terminal, and when the scenized application installed in the virtual space has a data request, the MEC server sends the data request to the scenized application management server according to network parameter configuration of the application, and the scenized application management server returns the data request to the MEC server.

The MEC server and the user terminal in the embodiment of the present disclosure are used to implement the terminal scenario application automatic configuration method in the first embodiment and the second embodiment, so the description is simple, and reference may be made to the related description in the first embodiment and the second embodiment of the method, and details are not repeated here.

Furthermore, as shown in fig. 6, a fifth embodiment of the present disclosure further provides a computer device, which includes a memory 10 and a processor 20, where the memory 10 stores a computer program, and when the processor 20 runs the computer program stored in the memory 10, the processor 20 executes the above-mentioned various possible terminal-scenario application automatic configuration methods.

In addition, the embodiment of the present disclosure also provides a computer-readable storage medium, in which computer-executable instructions are stored, and when at least one processor of the user equipment executes the computer-executable instructions, the user equipment executes the above-mentioned various possible methods.

Computer-readable media includes both computer storage media and communication media including any medium that facilitates transfer of a computer program from one place to another. A storage media may be any available media that can be accessed by a general purpose or special purpose computer. An exemplary storage medium is coupled to the processor such the processor can read information from, and write information to, the storage medium. Of course, the storage medium may also be integral to the processor. The processor and the storage medium may reside in an ASIC (Application Specific Integrated Circuit). Additionally, the ASIC may reside in user equipment. Of course, the processor and the storage medium may reside as discrete components in a communication device.

It is to be understood that the above embodiments are merely exemplary embodiments that are employed to illustrate the principles of the present disclosure, and that the present disclosure is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the disclosure, and these are to be considered as the scope of the disclosure.

Claims

1. A terminal scene application automatic configuration method is applied to an edge computing MEC server, and is characterized by comprising the following steps:

receiving a management application sent by each scene application management server, wherein the management application comprises each user identifier added into scene management, each scene application and a corresponding configuration parameter requirement;

receiving access confirmation information sent by each user terminal;

according to the user identification of each user terminal sending the confirmed access information, each scene application in all management applications with the user identification and the corresponding configuration parameter requirement, a user identification list needing to install the scene application, a scene application list corresponding to each user identification and the corresponding configuration parameter requirement of each scene application are formed;

receiving a scene application access request sent by the user terminal;

2. The method of claim 1, further comprising:

creating a scene application user information table;

3. The method of claim 2, further comprising, after receiving the subscriber identity sent by the subscriber terminal through the access point after entering the MEC server coverage area:

and if so, applying to the scenized application management server to acquire an installation program of the scenized application, and executing the step of creating a virtual space for the user based on the virtual environment of the mobile phone system.

4. The method of claim 2, wherein the scenized application access request includes a user identification;

the method further comprises the following steps:

5. The method of claim 1, further comprising:

when the user terminal remotely operates the scenized application installed in the virtual space created by the user terminal through the interface, if the scenized application installed in the virtual space has a data request, the data request is sent to a scenized application management server according to the network parameter configuration of the scenized application;

6. A terminal scene application automatic configuration method is applied to a user terminal, and is characterized in that the method comprises the following steps:

receiving a confirmation message of automatic access scene management sent by an MEC server, wherein the confirmation message is sent by the MEC server after receiving a management application sent by each scene application management server, the management application comprises each user identifier for joining scene management, each scene application and a corresponding configuration parameter requirement, and the confirmation message is sent to each user terminal according to each user identifier for joining scene management;

sending access confirmation information to an MEC server, so that after receiving the access confirmation information sent by each user terminal, the MEC server forms a user identification list needing to install the scenized applications, a scenized application list corresponding to each user identification and a configuration parameter requirement corresponding to each scenized application according to the user identification of each user terminal sending the access confirmation information and each scenized application and the configuration parameter requirement corresponding to each scenized application in all management applications with the user identification;

after entering the coverage area of the MEC server, sending a user identifier to the MEC server through the access point, so that the MEC server creates a virtual space for the user based on a virtual environment of a mobile phone system after receiving the user identifier, installs each scenized application in a scenized application list corresponding to the received user identifier in the virtual space, and configures corresponding network parameters for each scenized application based on the configuration parameter requirements corresponding to each scenized application;

7. An MEC server, comprising:

the system comprises a first receiving module, a second receiving module and a third receiving module, wherein the first receiving module is used for receiving management applications sent by each scene application management server, and the management applications comprise user identifications added into scene management, scene applications and configuration parameter requirements corresponding to the scene applications;

the first sending module is set to respectively send confirmation messages of automatic access scene management to each user terminal according to each user identification added to the scene management;

the first receiving module is also configured to receive access confirmation information sent by each user terminal;

the acquisition module is arranged to form a user identifier list needing to install the scenized applications, a scenized application list corresponding to each user identifier and a configuration parameter requirement corresponding to each scenized application according to the user identifier of each user terminal sending the confirmed access information and each scenized application and the configuration parameter requirement corresponding to each scenized application in all management applications with the user identifier;

the first receiving module is also configured to receive a user identifier sent by the user terminal through the access point after entering the coverage area of the MEC server;

the creating module is set to create a virtual space for the user based on a virtual environment of a mobile phone system, install each scenized application in a scenized application list corresponding to the received user identifier in the virtual space, and configure corresponding network parameters for each scenized application respectively based on configuration parameter requirements corresponding to each scenized application;

the first receiving module is also configured to receive a scenized application access request sent by a user terminal;

the first sending module is further configured to transmit an interface of the virtual space created for the user terminal back to the user terminal through remote connection based on the scenized application access request, so that the user terminal remotely operates the scenized application installed in the virtual space created for the user terminal through the interface.

8. A user terminal, comprising:

a second receiving module, configured to receive a confirmation message of automatic access scenario management sent by the MEC server, where the confirmation message is sent by the MEC server after receiving a management application sent by each scenario application management server, the management application includes each user identifier for joining scenario management, each scenario application, and a configuration parameter requirement corresponding to each scenario application, and the confirmation message is sent to each user terminal according to each user identifier for joining scenario management;

a second sending module, configured to send access confirmation information to the MEC server, so that after receiving the access confirmation information sent by each user terminal, the MEC server forms a user identifier list to which the scenized applications need to be installed, a scenized application list corresponding to each user identifier, and a configuration parameter requirement corresponding to each scenized application therein, according to the user identifier of each user terminal sending the access confirmation information, each scenized application in all management applications having the user identifier, and the configuration parameter requirement corresponding to each scenized application;

the second sending module is further configured to send a user identifier to the MEC server through the access point after the user terminal enters the MEC server coverage area, so that the MEC server creates a virtual space for the user based on the mobile phone system virtual environment after receiving the user identifier, installs each scenized application in the scenized application list corresponding to the received user identifier in the virtual space, and configures corresponding network parameters for each scenized application based on the configuration parameter requirements corresponding to each scenized application;

9. A computer device comprising a memory and a processor, the memory having a computer program stored therein, the processor when executing the computer program stored in the memory performing the terminal-scenario application auto-configuration method of any of claims 1-5, and claim 6.

10. A computer-readable storage medium, comprising: computer program which, when run on a computer, causes the computer to perform the method for terminal-scenario application auto-configuration as claimed in any one of claims 1-5, and claim 6.