CN116367097A - Method for improving 5G MAAP message fallback experience - Google Patents

Abstract

The invention discloses a method for improving 5G MAAP message fallback experience, which is characterized in that a 5G message front end module on a 5G mobile phone is moved to a cloud 5G message virtual terminal, so that a non-5G terminal achieves the same display and operation effects as the 5G terminal by accessing the virtual terminal: the virtual terminal stores the original 5G message, extracts key information in the original 5G message to form a guide short message, points to the address of the virtual terminal positioned in an operator and sends the guide short message to the non-5G terminal; the non-5G terminal accesses the virtual terminal located in the operator through the link in the guide short message, checks, operates, forwards and replies the operation in the virtual terminal after authentication, ensures that the operation experience of the non-5G terminal is completely identical to that of the 5G mobile phone, and simultaneously, the operator simulates an operation result of a non-5G terminal user to generate a 5G uplink message and reaches the chatbot through the MAAP module, so that the same operation effect as that of the 5G terminal is achieved. The processing logic of the service end can be simplified.

Description

Method for improving 5G MAAP message fallback experience

Technical Field

The invention belongs to the technical field of MAAP message fallback, and particularly relates to a method for improving 5G MAAP message fallback experience.

Background

The 5G message is a one-time large-scale technical upgrade of the original short message and the multimedia message, so that the richness of the message content is greatly improved, and through a MAAP (Massage as a platform) platform, the 5G MAAP message is convenient for a user to directly select through operation modes such as embedded buttons, suggestions and the like, and then the user selection is directly uploaded through the 5G message in the background, so that the interoperability is improved, and the user experience is greatly improved. Standard 5G message fallback and 5G MAAP message operation, fallback to H5 page are shown in fig. 1-3, respectively.

However, the receiving of the 5G message depends on the 5G mobile phone, and currently, a large number of 4G mobile phone terminals on the market cannot receive the 5G message, and only the 5G message can be dropped back to the traditional short message for sending, so that a large number of multimedia elements in the 5G message are lost, and especially for the 5G MAAP message, the interoperability is completely lost.

Most of the current solutions are to embed an HTTP link in a fallback sms, so that a user jumps to a browser to operate. However, for the service end connection, the HTTP interface needs to be provided, the workload is doubled, and the service end connection is very easy to hack due to the exposed surface of the internet. For the user, the security of the embedded link pointing to the service end cannot be resolved, clicking is not dared, and the service end releasing effect is greatly reduced.

Disclosure of Invention

Aiming at the defects of the prior art, the technical problem to be solved by the invention is to provide a method for improving the fallback experience of the 5G MAAP message, the 5G message on the 5G mobile phone is analyzed by introducing a cloud 5G message virtual terminal, a processing module is placed in the cloud of an operator, a user is guided to access the virtual terminal of the operator through HTTP link, and the reading and operation results of the user are guaranteed to be identical to those of the 5G mobile phone. For the operations of button, reply and the like in the 5G MAAP message, when the virtual terminal operates, the virtual terminal automatically triggers an uplink 5G message according to the normal flow of the 5G message, and the behavior of the uplink 5G message is the same as the operation result of the 5G mobile phone, so that the processing logic of a service end is greatly simplified.

In order to achieve the technical purpose, the invention adopts the following technical scheme:

a method for improving 5G MAAP message fallback experience is characterized in that a 5G message front end module on a 5G mobile phone is moved to a cloud 5G message virtual terminal, so that a non-5G terminal achieves the same display and operation effects as the 5G terminal by accessing the virtual terminal, and the method is specific:

the virtual terminal stores the original 5G message, extracts key information in the original 5G message to form a guide short message, points to the address of the virtual terminal positioned in an operator and sends the address to a non-5G terminal;

the non-5G terminal accesses the virtual terminal located in the operator through the link in the guide short message, checks, operates, forwards and replies the operation at the virtual terminal after authentication, so that the operation experience of the non-5G terminal is guaranteed to be completely identical to that of a 5G mobile phone, and meanwhile, for the operation result of a non-5G terminal user, the operator simulates to generate a 5G uplink message, and the 5G uplink message reaches a chatbot through the MAAP module, so that the same operation effect as that of the 5G terminal is achieved.

In order to optimize the technical scheme, the specific measures adopted further comprise:

the virtual terminal comprises a MAAP interface, a short message interface, an HTTP interface, an authentication module, an inbox, a short link storage module, a 5G message front-end module, a guide short message generation module and a scheduling module;

the MAAP interface is an interface for processing uplink and downlink messages in a butt joint way with the MAAP module;

the short message interface is used for processing downlink messages in butt joint with the short message module;

the HTTP interface is an interface which is in butt joint with the non-5G terminal and is used for processing an HTTP uplink request;

the authentication module is used for authenticating the non-5G terminal;

the inbox storage module is used for storing the 5G MAAP message and returning an index, and the index is used for retrieving the 5G MAAP message from the inbox;

the short link storage module is used for storing the corresponding relation between the short links in the guide short message and the corresponding complete long links;

the 5G message front-end module is used for providing the same display and operation effects as those of the 5G terminal;

the guiding short message generation module is used for adding a virtual terminal access address into the content of the fallback short message carried by the 5G MAAP message when the 5G MAAP message is issued;

and the scheduling module is used for calling each interface and module to complete the whole business process.

The authentication module performs authentication by adopting a verification code or mobile phone number authentication mode.

The full long link described above contains the 5G message ID, chatbot number, destination cell phone number and inbox index.

The guiding short message generating module is used for directly capturing the display effect of the 5G MAAP message to generate a picture for the terminal supporting the multimedia message, and sending the picture to the user through the multimedia message.

The process of issuing the 5G MAAP message issued by the virtual terminal to the chatbot is as follows:

step 1. The chatbot generates a 5G MAAP downlink message, i.e. a 5G message, and sends it to the MAAP module of the operator;

the 5G MAAP downlink message comprises a destination mobile phone number, the content of the 5G message and a prompt message of a fallback short message,

step 2, the MAAP module detects that the target mobile phone number is a non-5G terminal, the target mobile phone number is transmitted to the virtual terminal for processing, and the MAAP interface of the virtual terminal transmits the 5G message to the scheduling module for processing after receiving the 5G message;

step 3, the dispatching module stores the 5G information into an inbox storage module, and the inbox storage module returns an access index;

step 4, the scheduling module splices the 5G message ID, the chatbot number, the destination mobile phone number and the access index into an HTTP access link, carries out long-short link conversion and stores the mapping relation into a short link storage module;

step 5, the scheduling module calls a 5G message front-end module, and generates a display page for screenshot of the 5G message, so as to prompt the user for the message content;

step 6, the scheduling module sends the short message content, the short link and the screenshot picture after the 5G message is returned to the guiding short message generating module, and the guiding short message generating module splices the short message according to the receiving capability of the target mobile phone number to generate a guiding short message or a multimedia message and returns the guiding short message or the multimedia message to the scheduling module;

step 7, the scheduling module sends the guiding short message to the short message module through the short message interface and finally sends the guiding short message to the non-5G terminal;

and 8, the scheduling module generates a message receipt, wherein the receipt content is a receipt, and the receipt represents that the 5G message is returned to be a short message for issuing.

The non-5G terminal user accesses the MAAP message through the virtual terminal and operates, and the operation result is fed back to the chatbot, wherein the specific flow is as follows:

step 1, after clicking a link in a guide short message, a user reaches an HTTP interface of an operator virtual terminal;

step 2, the HTTP interface transmits the HTTP link to the dispatching module;

step 3, the scheduling module acquires a long link corresponding to the short link from the short link storage module according to the short link requested by the user, and extracts a 5G message ID, a chatbot number, a user number and an index in the long link;

step 4, the dispatching module guides the user access to the authentication module, and the authentication module initiates authentication to the non-5G terminal;

step 5, after the authentication is passed, the scheduling module acquires the original 5G message from the inbox according to the index;

step 6, the dispatching module guides the user flow to the front end module of the 5G message, and the user looks up and operates the original 5G message;

step 7, the scheduling module simultaneously generates a read message receipt, and sends the read message receipt to the chatbot through the MAAP interface and the MAAP module;

step 8, when the user clicks a button or replies, the 5G message front-end module sends the 5G message content, the 5G message ID, the user mobile phone number and the chatbot number which need to be sent to the chatbot back to the call back module during forwarding;

and 9, generating an uplink 5G message by the scheduling module, and sending the uplink 5G message to the chatbot through the MAAP interface and the MAAP module.

The invention has the following beneficial effects:

the method and the device solve the problem that the non-5G terminal cannot analyze the 5G MAAP message, and the cloud virtual terminal is introduced, so that the non-5G terminal can obtain the same reading and operation experience as the 5G terminal.

By the method for sending the screenshot of the 5G MAAP message to the user, the user can know the content of the received 5G MAAP message more clearly, and the selection of the user is greatly facilitated.

By pointing the link of the guiding short message to the HTTP server of the operator, the trust of the user is obtained, the user can distinguish the fraud short message conveniently, and the clicking possibility of the user is improved.

The cloud virtual terminal automatically generates conversion and read receipt, and is convenient for the chatbot to count.

The user can automatically trigger the uplink 5G message through the operation of the cloud virtual terminal on the 5G MAAP message, so that the chatbot does not need to additionally introduce an HTTP interface to process the request of the non-5G terminal, the workload is simplified, and the possibility of attack of a hacker on the HTTP interface is avoided.

Drawings

FIG. 1 is a standard 5G message fallback;

FIG. 2 is a 5G MAAP message operation;

FIG. 3 is a fall back H5 page;

FIG. 4 is a lossless fallback after introduction of a virtual terminal;

FIG. 5 is a view and operation by a virtual terminal;

FIG. 6 is an exploded view of a virtual terminal module;

fig. 7 is a flow of 5GMAAP message delivery through a virtual terminal;

fig. 8 is a flow of user access to a virtual terminal.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Although the steps of the present invention are arranged by reference numerals, the order of the steps is not limited, and the relative order of the steps may be adjusted unless the order of the steps is explicitly stated or the execution of a step requires other steps as a basis. It is to be understood that the term "and/or" as used herein relates to and encompasses any and all possible combinations of one or more of the associated listed items.

As shown in fig. 4, in the method for improving the fallback experience of the 5G MAAP message, the core idea of the whole scheme is to move the 5G message front end module on the 5G mobile phone to the cloud 5G message virtual terminal, so that the non-5G terminal can achieve the same display and operation effects as the 5G terminal by accessing the virtual terminal.

The virtual terminal stores the original 5G message, extracts key information in the original 5G message to form a guide short message, points to the address of the virtual terminal positioned in the operator, and sends the guide short message to the non-5G terminal.

As shown in fig. 5, a non-5G terminal user accesses a virtual terminal located in an operator through a link in a guide short message, and after authentication, the operations such as checking, operation, forwarding and replying can be performed on the virtual terminal, so that the operation experience of the non-5G terminal user is guaranteed to be completely equivalent to that of a 5G mobile phone. Meanwhile, for the operation result of the user, the operator can simulate and generate a 5G uplink message and reach the chatbot through the MAAP module, so that the same operation effect as that of the 5G terminal is achieved.

As shown in fig. 6, the entire virtual terminal system includes:

1. four external interfaces:

the MAAP interface is an interface which is in butt joint with the MAAP module and is used for processing uplink and downlink messages. For the issued MAAP message, when the MAAP module inquires that the 5G message is not opened by the destination number or the terminal which is currently located does not support the 5G message, the MAAP message is sent to the virtual terminal through the interface, and then the virtual terminal replies a message receipt of the 5G message falling back to the MAAP module through the interface; when a user reads the 5G message through the virtual terminal, the virtual terminal can send out a receipt of the 5G message through the interface; when the user replies or clicks the button of the MAAP message, the virtual terminal can replace the user to generate an uplink 5G message and send the uplink 5G message to the MAAP module through the interface.

The short message interface is an interface for processing downlink messages, which is in butt joint with the short message module. After generating a guiding short message, the virtual terminal sends the guiding short message to the short message module through the interface, and then sends the guiding short message to the non-5G terminal through the short message channel.

The HTTP interface is an interface which is in butt joint with the mobile phone of the user and is used for processing the HTTP uplink request. The virtual terminal will contain a link to the virtual terminal in the generated guiding short message, and the user will reach the interface by clicking.

And the authentication module ensures that only the destination number can access the corresponding 5G message and can operate in a verification code or mobile phone number authentication mode.

2. Two memory modules

The inbox storage module is used for storing the 5G MAAP message and returning an index, and the 5G MAAP message can be retrieved from the inbox through the index.

The short link storage module, the normal link should include the 5G message ID, the chatbot number, the destination phone number and the inbox index, but in order to prevent external attack, the link needs to be generated into a short link by MD5 and the like to be sent to the client, and the corresponding relationship of the short link should be stored in the short link storage module.

3. Three processing modules

And the 5G message front-end module is used for providing the same display and operation effects as those of the 5G terminal.

The guiding short message generating module can carry the content of the fallback short message when the 5G MAAP message is issued and is used for describing the text information when the fallback is carried out, and the virtual terminal access address is added on the basis of the guiding short message generating module. Meanwhile, for the terminal supporting the multimedia message, the display effect of the 5G MAAP message can be directly captured to generate a picture, and the picture is sent to the user through the multimedia message, so that the user has more visual feeling.

And the scheduling module is responsible for scheduling all the interfaces, storing and processing the modules and completing the whole business process.

As shown in fig. 7, for a 5G MAAP message issued by the chatbot, the issuing flow through the virtual terminal is as follows:

step 1. The chatbot generates a 5G MAAP downlink message, i.e. a 5G message, and sends it to the MAAP module of the operator;

the 5G MAAP downlink message comprises a destination mobile phone number, the content of the 5G message and a prompt message of a fallback short message,

step 2, the MAAP module detects that the target mobile phone number is a non-5G terminal, the target mobile phone number is transmitted to the virtual terminal for processing, and the MAAP interface of the virtual terminal transmits the 5G message to the scheduling module for processing after receiving the 5G message;

step 3, the dispatching module stores the 5G information into an inbox storage module, and the inbox storage module returns an access index;

step 4, the scheduling module splices the 5G message ID, the chatbot number, the destination mobile phone number and the access index into an HTTP access link, carries out long-short link conversion and stores the mapping relation into a short link storage module;

step 5, the scheduling module calls a 5G message front-end module, and generates a display page for screenshot of the 5G message, so as to prompt the user for the message content;

step 6, the scheduling module sends the short message content, the short link and the screenshot picture after the 5G message is returned to the guiding short message generating module, and the guiding short message generating module splices the short message according to the receiving capability of the target mobile phone number to generate a guiding short message or a multimedia message and returns the guiding short message or the multimedia message to the scheduling module;

step 7, the scheduling module sends the guiding short message to the short message module through the short message interface and finally sends the guiding short message to the non-5G terminal;

and 8, the scheduling module generates a message receipt, wherein the receipt content is a receipt, and the receipt represents that the 5G message is returned to be a short message for issuing.

As shown in fig. 8, the user accesses the MAAP message through the virtual terminal and performs an operation, and the operation result is fed back to the chatbot as follows:

step 1, after clicking a link in a guide short message, a user reaches an HTTP interface of an operator virtual terminal;

step 2, the HTTP interface transmits the HTTP link to the dispatching module;

step 3, the scheduling module acquires a long link corresponding to the short link from the short link storage module according to the short link requested by the user, and extracts a 5G message ID, a chatbot number, a user number and an inbox index;

step 4, the dispatching module guides the user access to the authentication module, the authentication module initiates authentication to the non-5G terminal, and the authentication mode can adopt mobile phone number or verification code authentication;

step 5, after the authentication is passed, the scheduling module acquires the original 5G message from the inbox according to the index;

step 6, the dispatching module guides the user flow to the front end module of the 5G message, and the user looks up and operates the original 5G message;

step 7, the scheduling module simultaneously generates a read message receipt, and sends the read message receipt to the chatbot through the MAAP interface and the MAAP module;

step 8, when the user clicks a button or replies, the 5G message front-end module sends the 5G message content, the 5G message ID, the user mobile phone number and the chatbot number which need to be sent to the chatbot back to the call back module during forwarding;

and 9, generating an uplink 5G message by the scheduling module, and sending the uplink 5G message to the chatbot through the MAAP interface and the MAAP module.

Examples

Assuming that a certain school needs to pass through a 5G MAAP message, whether a teacher or a student of the school has fever or not is investigated, and the situation of popup is avoided. The 5G message contains a series of multimedia information such as school badge, and the content is XX school please select the current health condition, and three options are included to allow the user to select: the disease of the healthy index the window is flicked due to fever. And the 5G message user automatically triggers the uplink 5G message by clicking the option, and the user selection is transmitted back to the school through the 5G message system.

However, due to the existence of a large number of non-5G message users, a school must prepare an HTTP server to open the exposed surface of the Internet, so that the non-5G message users can access the HTTP server. The school needs to edit the fall-back message content of the 5G MAAP message to report the current health condition through http:// xx.edu.cn/health. ".

After the patent is used, the school does not need to expose an HTTP interface, and only needs to edit the fall-back short message content of the 5G MAAP message into 'please report the current health condition'. ". The virtual terminal generates a guiding short message as 'please report the current health condition'. Please access the Chinese telecom virtual terminal address http://189.Cn/v5GMC/xxxx to operate ", wherein 189.Cn is the domain name of the Chinese telecom official network, v5GMC is the service name of the virtual terminal, xxxx is the short link converted by long link, and the short link is sent to the user together with the screenshot of the 5G MAAP message.

After the user clicks the link and accesses the virtual terminal service of the operator, the user can directly operate the options on the 5G MAAP message after performing identity verification, and the virtual terminal automatically generates an uplink 5G message to respond to the user selection result and send the uplink 5G message to the chatbot of the school.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. A method for improving 5G MAAP message fallback experience is characterized in that a 5G message front end module on a 5G mobile phone is moved to a cloud 5G message virtual terminal, so that a non-5G terminal achieves the same display and operation effects as the 5G terminal by accessing the virtual terminal, and the method is specifically characterized in that:

the virtual terminal stores the original 5G message, extracts key information in the original 5G message to form a guide short message, points to the address of the virtual terminal positioned in an operator and sends the address to a non-5G terminal;

the non-5G terminal accesses the virtual terminal located in the operator through the link in the guide short message, checks, operates, forwards and replies the operation at the virtual terminal after authentication, ensures that the operation experience of the non-5G terminal is completely identical to that of a 5G mobile phone, and simultaneously, the operator simulates an operation result of a non-5G terminal user to generate a 5G uplink message and reaches a chatbot through the MAAP module, so that the same operation effect as that of the 5G terminal is achieved.

2. The method for improving the fallback experience of the 5G MAAP message according to claim 1, wherein the virtual terminal includes a MAAP interface, a short message interface, an HTTP interface, an authentication module, an inbox, a short link storage module, a 5G message front end module, a guided short message generation module, and a scheduling module;

the MAAP interface is an interface for processing uplink and downlink messages in a butt joint way with the MAAP module;

the short message interface is used for processing downlink messages in butt joint with the short message module;

the HTTP interface is an interface which is in butt joint with the non-5G terminal and is used for processing an HTTP uplink request;

the authentication module is used for authenticating the non-5G terminal;

the inbox storage module is used for storing the 5G MAAP message and returning an index, and the index is used for retrieving the 5G MAAP message from the inbox;

the short link storage module is used for storing the corresponding relation between the short links in the guide short message and the corresponding complete long links;

the 5G message front-end module is used for providing the same display and operation effects as those of the 5G terminal;

the guiding short message generation module is used for adding a virtual terminal access address into the content of the fallback short message carried by the 5G MAAP message when the 5G MAAP message is issued;

and the scheduling module is used for calling each interface and module to complete the whole business process.

3. The method for improving the fallback experience of the 5G MAAP message according to claim 2, wherein the authentication module performs authentication by using a verification code or a mobile phone number authentication method.

4. The method of claim 2, wherein the full long link comprises a 5G message ID, a chatbot number, a destination handset number, and an inbox index.

5. The method for improving the fallback experience of the 5G MAAP message according to claim 2, wherein the guiding short message generating module is used for directly capturing the display effect of the 5G MAAP message to generate a picture for the terminal supporting the multimedia message and sending the picture to the user through the multimedia message.

6. The method for improving the fallback experience of the 5G MAAP message according to claim 2, wherein the issuing flow of the 5G MAAP message issued by the virtual terminal to the chatbot is as follows:

step 1. The chatbot generates a 5G MAAP downlink message, i.e. a 5G message, and sends it to the MAAP module of the operator;

the 5G MAAP downlink message comprises a destination mobile phone number, the content of the 5G message and a prompt message of a fallback short message,

step 2, the MAAP module detects that the target mobile phone number is a non-5G terminal, the target mobile phone number is transmitted to the virtual terminal for processing, and the MAAP interface of the virtual terminal transmits the 5G message to the scheduling module for processing after receiving the 5G message;

step 3, the dispatching module stores the 5G information into an inbox storage module, and the inbox storage module returns an access index;

step 4, the scheduling module splices the 5G message ID, the chatbot number, the destination mobile phone number and the access index into an HTTP access link, carries out long-short link conversion and stores the mapping relation into a short link storage module;

step 5, the scheduling module calls a 5G message front-end module, and generates a display page for screenshot of the 5G message, so as to prompt the user for the message content;

step 6, the scheduling module sends the short message content, the short link and the screenshot picture after the 5G message is returned to the guiding short message generating module, and the guiding short message generating module splices the short message according to the receiving capability of the target mobile phone number to generate a guiding short message or a multimedia message and returns the guiding short message or the multimedia message to the scheduling module;

step 7, the scheduling module sends the guiding short message to the short message module through the short message interface and finally sends the guiding short message to the non-5G terminal;

and 8, the scheduling module generates a message receipt, wherein the receipt content is a receipt, and the receipt represents that the 5G message is returned to be a short message for issuing.

7. The method for improving the fallback experience of the 5G MAAP message according to claim 2, wherein the non-5G terminal user accesses the MAAP message through the virtual terminal and performs an operation, and the operation result is fed back to the chatbot, which specifically includes:

step 1, after clicking a link in a guide short message, a user reaches an HTTP interface of an operator virtual terminal;

step 2, the HTTP interface transmits the HTTP link to the dispatching module;

step 3, the scheduling module acquires a long link corresponding to the short link from the short link storage module according to the short link requested by the user, and extracts a 5G message ID, a chatbot number, a user number and an index in the long link;

step 4, the dispatching module guides the user access to the authentication module, and the authentication module initiates authentication to the non-5G terminal;

step 5, after the authentication is passed, the scheduling module acquires the original 5G message from the inbox according to the index;

step 6, the dispatching module guides the user flow to the front end module of the 5G message, and the user looks up and operates the original 5G message;

step 7, the scheduling module simultaneously generates a read message receipt, and sends the read message receipt to the chatbot through the MAAP interface and the MAAP module;

step 8, when the user clicks a button or replies, the 5G message front-end module sends the 5G message content, the 5G message ID, the user mobile phone number and the chatbot number which need to be sent to the chatbot back to the call back module during forwarding;

and 9, generating an uplink 5G message by the scheduling module, and sending the uplink 5G message to the chatbot through the MAAP interface and the MAAP module.

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