CN108260184B - Method and equipment for executing WiFi mode task - Google Patents

Abstract

The purpose of the application is to provide a method and equipment for executing a WiFi mode task; determining target mode information based on the WiFi mode information synchronization result of the user equipment and the corresponding network equipment; and executing the task corresponding to the target mode based on the target mode information. Compared with the prior art, the WiFi connection operation mode is not single any more, the current different application scenes and application requirements of different users can be flexibly considered, and more refined services can be provided for the users. Meanwhile, the real-time performance of the target mode information can be ensured based on the target mode information determined by the WiFi mode information synchronization result of the user equipment and the corresponding network equipment, so that the current scene of the user can be fitted better, the real-time requirements of the user are met, and the user experience effect is further improved.

Description

Method and equipment for executing WiFi mode task

Technical Field

The present application relates to the field of computers, and more particularly, to a technique for performing WiFi mode tasks.

Background

With the popularization of internet application, various aspects of the traditional life of users are also influenced by the internet more and more widely and are changed deeply, the daily interaction, work and study, leisure and entertainment and the like of the users are increasingly closely applied to computer technology, and in daily life, the users can conveniently realize the wireless networking of intelligent equipment by accessing the intelligent equipment to a WiFi (wireless fidelity) network. However, in the prior art, the WiFi connection operation mode is single, and generally, the connection between the smart device and the target hotspot is established based on the direct connection request of the user, and the connection mode cannot be distinguished in further consideration of the difference between the real-time application scenario and the application requirement of the user, so that the networking experience of the user is monotonous, and different users lack of distinctive personal experience.

Disclosure of Invention

The application aims to provide a method and equipment for executing a WiFi mode task.

According to an aspect of the present application, there is provided a method for performing a WiFi mode task at a user equipment, including:

determining target mode information based on the WiFi mode information synchronization result of the user equipment and the corresponding network equipment;

and executing the task corresponding to the target mode based on the target mode information.

According to another aspect of the present application, there is provided a method for performing a WiFi mode task at a network device, including:

comparing version information of first WiFi mode information in the obtained user equipment with version information of second WiFi mode information in the network equipment, wherein the pattern identification information of the second WiFi mode information is the same as that of the first WiFi mode information;

and if the version information of the second WiFi mode information is higher than that of the first WiFi mode information, providing the second WiFi mode information to the user equipment, wherein the user equipment determines target mode information based on the second WiFi mode information.

According to another aspect of the present application, there is also provided a user equipment for performing a WiFi mode task, including:

the device comprises a first device, a second device and a third device, wherein the first device is used for determining target mode information based on a WiFi mode information synchronization result of user equipment and corresponding network equipment;

and the second device is used for executing the task corresponding to the target mode based on the target mode information.

According to another aspect of the present application, there is also provided a system for performing WiFi mode tasks, comprising

According to still another aspect of the present application, there is also provided a network device for performing a WiFi mode task, including:

a seventh means for comparing version information of the first WiFi mode information in the obtained user equipment with version information of second WiFi mode information in the network equipment, where the second WiFi mode information is the same as the pattern identification information of the first WiFi mode information;

an eighth means for providing the second WiFi mode information to the user equipment if the version information of the second WiFi mode information is higher than the version information of the first WiFi mode information, wherein the user equipment determines the target mode information based on the second WiFi mode information.

According to yet another aspect of the present application, there is also provided a system for performing WiFi mode tasks, comprising a user equipment according to another aspect of the present application performing WiFi mode tasks and a network equipment according to yet another aspect of the present application performing WiFi mode tasks.

Compared with the prior art, in the application, the user equipment can execute the task corresponding to the target mode based on the target mode information determined by the WiFi mode information synchronization result of the user equipment and the corresponding network equipment. Here, the task corresponding to the target mode executed by the user equipment may be based on a corresponding real-time application scenario and/or a difference in user application needs, and execute a WiFi connection operation in a corresponding WiFi mode, or other tasks related to a WiFi connection. Therefore, the WiFi connection operation mode is not single any more, the current different application scenes and application requirements of different users can be flexibly considered, and more refined services can be provided for the users. Meanwhile, the real-time performance of the target mode information can be ensured based on the target mode information determined by the WiFi mode information synchronization result of the user equipment and the corresponding network equipment, so that the current scene of the user can be fitted better, the real-time requirements of the user are met, and the user experience effect is further improved.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 illustrates an apparatus diagram of a user device performing WiFi mode tasks in accordance with an aspect of the subject application;

FIG. 2 illustrates a system diagram for performing WiFi mode tasks in accordance with an aspect of the subject application.

Fig. 3 illustrates a flow chart of a method for performing WiFi mode tasks at a user equipment in accordance with an aspect of the subject application;

fig. 4 illustrates a flow chart of a method for performing WiFi mode tasks at a user equipment side and a network equipment side according to an aspect of the subject application;

the same or similar reference numbers in the drawings identify the same or similar elements.

Detailed Description

The present application is described in further detail below with reference to the attached figures.

In a typical configuration of the present application, the terminal, the device serving the network, and the trusted party each include one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, computer readable media does not include non-transitory computer readable media (transient media), such as modulated data signals and carrier waves.

Fig. 1 shows a device schematic diagram of a user equipment 1 performing WiFi mode tasks according to an aspect of the present application.

Wherein the user equipment 1 comprises a first device 11 and a second device 12.

Specifically, the first apparatus 11 determines the target WiFi mode information based on the WiFi mode information synchronization result of the user equipment 1 and the corresponding network equipment 2 (refer to fig. 2). Here, the WiFi mode or the target WiFi mode includes an application scenario of a WiFi connection operation or a WiFi other related operation, and different WiFi modes correspond to different WiFi application scenarios. Further, in each WiFi mode, the user equipment may perform a WiFi connection operation matched with the WiFi mode information, or other tasks related to the WiFi connection.

In one implementation, the target WiFi mode includes at least any one of: an outgoing WiFi hotspot connection mode; switching a WiFi mode in a timing mode; an optimal WiFi hotspot pattern; WiFi hotspot connection preference mode. Specifically, one example of the outgoing WiFi hotspot connection pattern is: the user equipment 1 stores a connectable WiFi hotspot a matched with a destination location and corresponding connection information, such as a connection password, in advance, if the outgoing WiFi hotspot connection mode function is turned on, when the user arrives at the destination location, based on the WiFi hotspot a scanned by the user equipment 1, a hotspot connection task may be triggered based on the connection information of the WiFi hotspot a stored locally in advance, so that the user equipment 1 may automatically connect to the WiFi hotspot a.

Here, an example of the timing switch WiFi mode is: based on the preset WiFi working time, such as a specific time point or a time period, the user equipment may correspondingly adjust the switch of the WiFi function at a corresponding time based on the preset WiFi working time, so as to achieve the power saving effect.

Here, an example of the optimal WiFi hotspot pattern is: the user equipment 1 acquires executable data information of the candidate WiFi hotspot, for example, information such as location information, signal strength, the number of connected people, use duration, bandwidth, and the like of the user equipment 1 connected to the WiFi hotspot. When the user equipment 1 meets the triggering condition of the optimal hotspot connection, for example, the user arrives at the mark position and scans a designated WiFi hotspot, and for example, when the user is located at a certain position at a certain time, the optimal WiFi hotspot matching with the current user equipment 1 is determined based on the executable data information of the candidate WiFi hotspot and by combining a preset optimal hotspot judgment method, and further, the user equipment 1 is automatically connected with the optimal WiFi hotspot.

Here, an example of the WiFi hotspot connection preference pattern is: the method comprises the steps that a user presets a corresponding user preference WiFi hotspot B at a destination position, when user equipment 1 corresponding to the user arrives at the destination position again, or a hotspot list searched by other user equipment 1 of the user contains the WiFi hotspot B, the WiFi hotspot B is selected based on preference setting, and wireless connection between the current user equipment 1 and the WiFi hotspot B is automatically established.

Here, different WiFi modes can meet different real-time application scenarios and/or user application needs, and are optimized for a traditional single WiFi wireless connection mode, and the purpose of setting each mode is mostly to achieve: the WiFi function is more convenient for the user to use; or the overhead of network resources or equipment resources of user networking operation is saved; or the personalized and convenient effects of the user can be considered. It should be understood by those skilled in the art that the above-mentioned target WiFi modes are only examples, and other WiFi modes that exist or may come out later, such as applicable, should be included in the scope of the present application and are also included herein by reference.

In the user equipment 1, one or more different WiFi modes may be deployed at the same time, and in an implementation, corresponding WiFi mode information is configured for each WiFi mode, for example, the WiFi mode information may be an independent configuration file. In one implementation, the target WiFi mode information may include mode rule information and/or mode data information. Here, the mode rule information may include, but is not limited to, a condition that the user equipment 1 performs a task in the WiFi mode, and a rule such as a specific task content. For example, timing rule information in the timing switch WiFi mode, such as setting T1 time to turn on the WiFi function of the user equipment; for another example, in the optimal WiFi hotspot mode, the optimal hotspot determination method is also a mode rule message. In addition, the mode data information includes various data information that may be updated regularly or irregularly during the operation of the WiFi mode, for example, in the outgoing WiFi hotspot connection mode, the user equipment 1 stores a local hotspot database, which includes connectable WiFi hotspots matched with each destination location and their corresponding connection information; as another example, in the best WiFi hotspot mode, the candidate WiFi hotspots may have data information executable. It should be understood by those skilled in the art that the above-mentioned respective pattern rule information or pattern data information is only an example, and other pattern rule information or pattern data information that currently exists or may come in future, such as applicable to the present application, should also be included in the scope of protection of the present application and is included herein by reference.

In one implementation, the WiFi mode information may be generated or updated in the user equipment 1, for example, the timing rule information in the timing switch WiFi mode may be set by the user in its corresponding one of the user equipments 1. In one implementation, the WiFi mode information may also be generated or updated in the network device 2, for example, in the optimal WiFi hotspot mode, the executable data information of the candidate WiFi hotspot may be determined by statistical analysis in the network device and updated in real time. Based on this, in an implementation manner, the network device 2 stores WiFi mode information in each WiFi mode corresponding to each user device 1, for example, the network device 2 may store the WiFi mode information based on its own data update, and for example, the network device 2 performs data synchronization operation based on the latest WiFi mode information in the user device 1, thereby updating corresponding WiFi mode information in the network device 2.

Based on this, the user equipment 1 currently corresponding to the user may determine the target WiFi mode information according to the WiFi mode information synchronization result of the user equipment 1 and the corresponding network equipment 2. Here, the purpose of the WiFi mode information synchronization is to ensure that relatively new information of the WiFi mode information may exist in the user equipment 1, and the relatively new information is used as the target WiFi mode information to implement the execution of the task in the target WiFi mode by the user equipment 1. In an implementation manner, if the WiFi mode information in the user equipment 1 is newer based on the synchronous judgment of the WiFi mode information of the user equipment 1 and the corresponding network equipment 2, or the WiFi mode information in the user equipment 1 and the WiFi mode information in the network equipment 2 are completely consistent, the current WiFi mode information in the user equipment 1 is the target WiFi mode information; if the WiFi mode information existing in the current network device 2 is newer based on the WiFi mode information synchronization judgment of the user device 1 and the corresponding network device 2, the WiFi mode information synchronization is performed on the user device 1 based on the WiFi mode information existing in the network device 2, and it is determined that the synchronized WiFi mode information in the user device 1 is the target WiFi mode information.

In one implementation, the information comparison in the synchronization operation of the WiFi mode information of the user equipment 1 and the corresponding network equipment 2, such as the comparison of the version information corresponding to the WiFi mode information, may be performed in the network equipment 2, for example, the user equipment 1 sends the version information of the WiFi mode information in its own equipment to the network equipment 2, compares the version information with the corresponding WiFi mode information in the network equipment 2, and determines that the synchronization of the WiFi mode information with low version information is the WiFi mode information with high version information. In another implementation, the information comparison in the synchronization operation between the user equipment 1 and the WiFi mode information corresponding to the network equipment 2 may also be performed in the user equipment 1, for example, the user equipment 1 compares the version information corresponding to the WiFi mode information acquired from the network equipment 2 with the version information corresponding to the WiFi mode information already in the user equipment 1, and determines that the synchronization of the WiFi mode information with low version information is the WiFi mode information with high version information.

Then, the second device 12 performs a task corresponding to the target WiFi mode based on the target WiFi mode information. In one implementation, the task corresponding to the target WiFi mode may be automatically performed by the user equipment 1 based on a preset, e.g., based on the target WiFi mode information, and does not need to participate in real time by the corresponding user. In another implementation, the second device 12 may further perform a task corresponding to the target WiFi mode based on the target WiFi mode information and in combination with the user operation information. Here, the task corresponding to the target WiFi mode may include establishing a basic WiFi connection operation of the user equipment 1 in each mode, such as mode rule information based on the target WiFi mode and an automatic connection operation of the user equipment 1; or further, other scene configuration tasks related to the WiFi function in the mode may be triggered based on the acquired user operation information. For example, when the user performs the setting of the user preference of the current location again in the WiFi hotspot connection preference mode, the user equipment 1 may perform the preference setting task based on the user operation information.

In one implementation, the user equipment 1 further includes a sixth device (not shown) that monitors current status information of the user equipment 1; if the current state information meets a preset trigger condition corresponding to the target WiFi mode, the second device 12 executes a task corresponding to the target WiFi mode based on the target WiFi mode information. Specifically, in an implementation manner, the trigger condition corresponding to the target WiFi mode may be matched with the mode rule information in the target WiFi mode. For example, in the outbound WiFi hotspot connection mode, when the user arrives at the destination location, based on the WiFi hotspot a scanned by the user equipment 1, the hotspot connection task may be triggered based on the connection information of the WiFi hotspot a pre-stored locally, so that the user equipment 1 may automatically connect to the WiFi hotspot a. The target WiFi mode is a target WiFi mode, and the target WiFi mode is a target WiFi mode. As another example, in the time-switched WiFi mode: based on the preset WiFi working time, such as a specific time point, or a time period, the user equipment may correspondingly adjust the switch of the WiFi function at a corresponding time based on the preset WiFi working time. And the preset WiFi working time is the trigger condition corresponding to the target WiFi mode. Further, if the current state information of the user equipment 1, including but not limited to the time state, the space state, and the like, meets the triggering condition corresponding to the target WiFi mode, the execution of the task corresponding to the target WiFi mode may be triggered.

In this application, the user equipment 1 may execute a task corresponding to the target mode based on the target mode information determined by the WiFi mode information synchronization result of the user equipment and the corresponding network equipment 2. Here, the task corresponding to the target mode executed by the user equipment 1 may be to execute a WiFi connection operation in a corresponding WiFi mode or other tasks related to the WiFi connection based on a corresponding real-time application scenario and/or a difference of user application needs. Therefore, the WiFi connection operation mode is not single any more, the current different application scenes and application requirements of different users can be flexibly considered, and more refined services can be provided for the users. Meanwhile, the real-time performance of the target mode information can be ensured based on the target mode information determined by the WiFi mode information synchronization result of the user equipment 1 and the corresponding network equipment 2, so that the current scene of the user can be fitted better, the real-time requirement of the user is met, and the user experience effect is further improved.

FIG. 2 illustrates a system diagram for performing WiFi mode tasks in accordance with an aspect of the subject application. Wherein the user equipment 1 comprises a third means 13 ', a fourth means 14', a first means 11 'and a second means 12', and the network device 2 comprises a seventh means 21 'and an eighth means 22'.

An implementation manner of the present application further provides a system for performing WiFi mode task, including a user device 1 and a network device 2, where the network device 2 includes but is not limited to a computer, a network host, a single network server, multiple network server sets or a cloud server, where the cloud server is a virtual super computer that runs in a distributed system and is composed of a group of loosely coupled computer sets, and is used to implement a simple, efficient, safe, reliable, and computing service with elastically scalable processing capability.

Specifically, the third device 13' sends version information of the first WiFi mode information to the network device 2. In one implementation, the user equipment 1 further includes a fifth device (not shown), and the fifth device detects version information of the first WiFi mode information of the user equipment based on a preset trigger condition. Here, the trigger condition may be any custom condition for starting WiFi mode information synchronization, for example, the trigger condition may be that a user opens a target application in the user equipment 1; the trigger condition may also be that the user logs in a target application in the user equipment 1; the trigger condition may also be that the user switches to log in a target application in different user equipment 1; the trigger condition may also be specific time information set in advance, such as the detection being performed at a certain time period, or a certain time, etc. When the trigger condition occurs, the user equipment 1 may obtain version information of the first WiFi mode information by detecting the local configuration file information, where the version information is used to identify different versions of WiFi mode information with the same mode identification information. For example, the WiFi mode information with the same identification information but different versions may be compared with the timestamp information of the independent configuration file of the WiFi mode information, the file fingerprint information of the independent configuration file, such as the file size information, and the like. Then, the third device 13' sends the detected version information of the first WiFi mode information to a network device.

Correspondingly, the seventh device 21' compares the version information of the first WiFi mode information in the user equipment 1 with the version information of the second WiFi mode information in the network equipment, where the second WiFi mode information is the same as the pattern identification information of the first WiFi mode information. Here, the pattern recognition information may be information for identifying different WiFi pattern information, for example, character string information for distinguishing individual profiles of scenes.

Next, if the version information of the second WiFi mode information is higher than the version information of the first WiFi mode information, the eighth means 22' provides the second WiFi mode information to the user equipment 1, wherein the user equipment 1 may determine the target WiFi mode information based on the second WiFi mode information. Correspondingly, the fourth means 14' obtains the second WiFi mode information provided by the network device 2. In an implementation manner, the WiFi mode information may be generated or updated in the network device 2, for example, in the optimal WiFi hotspot mode, the executable data information of the candidate WiFi hotspot may be determined by statistical analysis in the network device and updated in real time, so in practical applications, there may be a scenario where the network device 1 has been updated to the second WiFi mode information, and the user device 2 still has the previous version of the first WiFi mode information, that is, the version information of the second WiFi mode information in the network device 1 is higher than the first WiFi mode information, at this time, the user device 1 needs to obtain the second WiFi mode information in the network device 2, so as to implement corresponding information synchronization in the user device 1. In another implementation, the WiFi mode information may also be generated or updated in the user equipment 1, for example, the timing rule information in the timing switch WiFi mode may be set by the user in its corresponding one of the user equipments 1. However, when the latest WiFi mode information in the user equipment 1 is lost, or the user changes the user equipment, and only the first WiFi mode information with version information added thereto is reserved in the new user equipment 1, the user equipment 1 also needs to acquire the second WiFi mode information in the network equipment 2, and perform corresponding information synchronization in the new user equipment 1.

Then, the first device 11' may synchronize the first WiFi mode information in the user equipment 1 to the second WiFi mode information, including performing information update on the first WiFi mode information existing in the user equipment 1, such as partial replacement or complete replacement with the second WiFi mode information; and determining the updated second WiFi mode information as target WiFi mode information. Then, the first device 12' performs a task corresponding to the target WiFi mode based on the target WiFi mode information.

In an implementation manner, if the version information of the second WiFi mode information in the network device 2 is lower than the version information of the first WiFi mode information, the eighth device 22 'may further obtain the first WiFi mode information from the user equipment 1, and correspondingly, the fourth device 14' provides the first WiFi mode information to the network device 2. In one implementation, the eighth means 22' may send a first WiFi mode information obtaining request to the user equipment when the version information of the second WiFi mode information is lower than the version information of the first WiFi mode information; correspondingly, the fourth device 14' acquires the first WiFi mode information acquisition request, and sends the first WiFi mode information to the network device 2. In another implementation manner, the eighth means 22' may also send only one version information determination result to the user equipment 1, and the user equipment 1 provides the first WiFi mode information to the network device 2 based on the determination result. In another implementation manner, a waiting time of the version information determination result may also be set, if the waiting time is exceeded and the user equipment 1 has not received the second WiFi mode information provided by the network equipment 2, the user equipment 1 may determine that the version information of the first WiFi mode information of the user equipment 1 is not less than the second WiFi mode information, and at this time, the user equipment 1 may be set to actively send the first WiFi mode information to the network equipment 2, so that the network equipment 2 can update the second WiFi mode information.

Further, the network device 2 further includes a ninth device (not shown), which can synchronize the second WiFi mode information in the network device to the first WiFi mode information. In one implementation, the WiFi mode information may be generated or updated in the user equipment 1, for example, the timing rule information in the timing switch WiFi mode may be set by the user in its corresponding one of the user equipment 1. Here, the historical WiFi mode information in the user equipment 1 may be backed up in a synchronous manner in the network equipment 1, so that if the WiFi mode information in the user equipment 1 is lost or a user of the user equipment 1 changes the equipment, the user can synchronously restore the corresponding WiFi mode information through the data of the current user equipment 1 and the network equipment 2.

Fig. 3 illustrates a flow chart of a method for performing WiFi mode tasks at a user equipment in accordance with an aspect of the subject application;

wherein the method comprises step S31 and step S32.

Specifically, in step S31, the user equipment 1 determines the target WiFi mode information based on the WiFi mode information synchronization result of the user equipment 1 and the corresponding network equipment 2 (refer to fig. 2). Here, the WiFi mode or the target WiFi mode includes an application scenario of a WiFi connection operation or a WiFi other related operation, and different WiFi modes correspond to different WiFi application scenarios. Further, in each WiFi mode, the user equipment may perform a WiFi connection operation matched with the WiFi mode information, or other tasks related to the WiFi connection.

In one implementation, the target WiFi mode includes at least any one of: an outgoing WiFi hotspot connection mode; switching a WiFi mode in a timing mode; an optimal WiFi hotspot pattern; WiFi hotspot connection preference mode. Specifically, one example of the outgoing WiFi hotspot connection pattern is: the user equipment 1 stores a connectable WiFi hotspot a matched with a destination location and corresponding connection information, such as a connection password, in advance, if the outgoing WiFi hotspot connection mode function is turned on, when the user arrives at the destination location, based on the WiFi hotspot a scanned by the user equipment 1, a hotspot connection task may be triggered based on the connection information of the WiFi hotspot a stored locally in advance, so that the user equipment 1 may automatically connect to the WiFi hotspot a.

Here, an example of the timing switch WiFi mode is: based on the preset WiFi working time, such as a specific time point or a time period, the user equipment may correspondingly adjust the switch of the WiFi function at a corresponding time based on the preset WiFi working time, so as to achieve the power saving effect.

Here, an example of the optimal WiFi hotspot pattern is: the user equipment 1 acquires executable data information of the candidate WiFi hotspot, for example, information such as location information, signal strength, the number of connected people, use duration, bandwidth, and the like of the user equipment 1 connected to the WiFi hotspot. When the user equipment 1 meets the triggering condition of the optimal hotspot connection, for example, the user arrives at the mark position and scans a designated WiFi hotspot, and for example, when the user is located at a certain position at a certain time, the optimal WiFi hotspot matching with the current user equipment 1 is determined based on the executable data information of the candidate WiFi hotspot and by combining a preset optimal hotspot judgment method, and further, the user equipment 1 is automatically connected with the optimal WiFi hotspot.

Here, an example of the WiFi hotspot connection preference pattern is: the method comprises the steps that a user presets a corresponding user preference WiFi hotspot B at a destination position, when user equipment 1 corresponding to the user arrives at the destination position again, or a hotspot list searched by other user equipment 1 of the user contains the WiFi hotspot B, the WiFi hotspot B is selected based on preference setting, and wireless connection between the current user equipment 1 and the WiFi hotspot B is automatically established.

Here, different WiFi modes can meet different real-time application scenarios and/or user application needs, and are optimized for a traditional single WiFi wireless connection mode, and the purpose of setting each mode is mostly to achieve: the WiFi function is more convenient for the user to use; or the overhead of network resources or equipment resources of user networking operation is saved; or the personalized and convenient effects of the user can be considered. It should be understood by those skilled in the art that the above-mentioned target WiFi modes are only examples, and other WiFi modes that exist or may come out later, such as applicable, should be included in the scope of the present application and are also included herein by reference.

In the user equipment 1, one or more different WiFi modes may be deployed at the same time, and in an implementation, corresponding WiFi mode information is configured for each WiFi mode, for example, the WiFi mode information may be an independent configuration file. In one implementation, the target WiFi mode information may include mode rule information and/or mode data information. Here, the mode rule information may include, but is not limited to, a condition that the user equipment 1 performs a task in the WiFi mode, and a rule such as a specific task content. For example, timing rule information in the timing switch WiFi mode, such as setting T1 time to turn on the WiFi function of the user equipment; for another example, in the optimal WiFi hotspot mode, the optimal hotspot determination method is also a mode rule message. In addition, the mode data information includes various data information that may be updated regularly or irregularly during the operation of the WiFi mode, for example, in the outgoing WiFi hotspot connection mode, the user equipment 1 stores a local hotspot database, which includes connectable WiFi hotspots matched with each destination location and their corresponding connection information; as another example, in the best WiFi hotspot mode, the candidate WiFi hotspots may have data information executable. It should be understood by those skilled in the art that the above-mentioned respective pattern rule information or pattern data information is only an example, and other pattern rule information or pattern data information that currently exists or may come in future, such as applicable to the present application, should also be included in the scope of protection of the present application and is included herein by reference.

In one implementation, the WiFi mode information may be generated or updated in the user equipment 1, for example, the timing rule information in the timing switch WiFi mode may be set by the user in its corresponding one of the user equipments 1. In one implementation, the WiFi mode information may also be generated or updated in the network device 2, for example, in the optimal WiFi hotspot mode, the executable data information of the candidate WiFi hotspot may be determined by statistical analysis in the network device and updated in real time. Based on this, in an implementation manner, the network device 2 stores WiFi mode information in each WiFi mode corresponding to each user device 1, for example, the network device 2 may store the WiFi mode information based on its own data update, and for example, the network device 2 performs data synchronization operation based on the latest WiFi mode information in the user device 1, thereby updating corresponding WiFi mode information in the network device 2.

Based on this, the user equipment 1 currently corresponding to the user may determine the target WiFi mode information according to the WiFi mode information synchronization result of the user equipment 1 and the corresponding network equipment 2. Here, the purpose of the WiFi mode information synchronization is to ensure that relatively new information of the WiFi mode information may exist in the user equipment 1, and the relatively new information is used as the target WiFi mode information to implement the execution of the task in the target WiFi mode by the user equipment 1. In an implementation manner, if the WiFi mode information in the user equipment 1 is newer based on the synchronous judgment of the WiFi mode information of the user equipment 1 and the corresponding network equipment 2, or the WiFi mode information in the user equipment 1 and the WiFi mode information in the network equipment 2 are completely consistent, the current WiFi mode information in the user equipment 1 is the target WiFi mode information; if the WiFi mode information existing in the current network device 2 is newer based on the WiFi mode information synchronization judgment of the user device 1 and the corresponding network device 2, the WiFi mode information synchronization is performed on the user device 1 based on the WiFi mode information existing in the network device 2, and it is determined that the synchronized WiFi mode information in the user device 1 is the target WiFi mode information.

In one implementation, the information comparison in the synchronization operation of the WiFi mode information of the user equipment 1 and the corresponding network equipment 2, such as the comparison of the version information corresponding to the WiFi mode information, may be performed in the network equipment 2, for example, the user equipment 1 sends the version information of the WiFi mode information in its own equipment to the network equipment 2, compares the version information with the corresponding WiFi mode information in the network equipment 2, and determines that the synchronization of the WiFi mode information with low version information is the WiFi mode information with high version information. In another implementation, the information comparison in the synchronization operation between the user equipment 1 and the WiFi mode information corresponding to the network equipment 2 may also be performed in the user equipment 1, for example, the user equipment 1 compares the version information corresponding to the WiFi mode information acquired from the network equipment 2 with the version information corresponding to the WiFi mode information already in the user equipment 1, and determines that the synchronization of the WiFi mode information with low version information is the WiFi mode information with high version information.

Next, in step S32, the user equipment 1 executes a task corresponding to the target WiFi mode based on the target WiFi mode information. In one implementation, the task corresponding to the target WiFi mode may be automatically performed by the user equipment 1 based on a preset, e.g., based on the target WiFi mode information, and does not need to participate in real time by the corresponding user. In another implementation manner, in step S32, the user equipment 1 may further execute a task corresponding to the target WiFi mode based on the target WiFi mode information and in combination with the user operation information. Here, the task corresponding to the target WiFi mode may include establishing a basic WiFi connection operation of the user equipment 1 in each mode, such as mode rule information based on the target WiFi mode and an automatic connection operation of the user equipment 1; or further, other scene configuration tasks related to the WiFi function in the mode may be triggered based on the acquired user operation information. For example, when the user performs the setting of the user preference of the current location again in the WiFi hotspot connection preference mode, the user equipment 1 may perform the preference setting task based on the user operation information.

In one implementation, the method further comprises step S36 (not shown), in step S36, the user equipment 1 monitors current status information of the equipment 1; next, in step S32, if the current status information satisfies the preset trigger condition corresponding to the target WiFi mode, the user equipment 1 executes the task corresponding to the target WiFi mode based on the target WiFi mode information. Specifically, in an implementation manner, the trigger condition corresponding to the target WiFi mode may be matched with the mode rule information in the target WiFi mode. For example, in the outbound WiFi hotspot connection mode, when the user arrives at the destination location, based on the WiFi hotspot a scanned by the user equipment 1, the hotspot connection task may be triggered based on the connection information of the WiFi hotspot a pre-stored locally, so that the user equipment 1 may automatically connect to the WiFi hotspot a. The target WiFi mode is a target WiFi mode, and the target WiFi mode is a target WiFi mode. As another example, in the time-switched WiFi mode: based on the preset WiFi working time, such as a specific time point, or a time period, the user equipment may correspondingly adjust the switch of the WiFi function at a corresponding time based on the preset WiFi working time. And the preset WiFi working time is the trigger condition corresponding to the target WiFi mode. Further, if the current state information of the user equipment 1, including but not limited to the time state, the space state, and the like, meets the triggering condition corresponding to the target WiFi mode, the execution of the task corresponding to the target WiFi mode may be triggered.

In this application, the user equipment 1 may execute a task corresponding to the target mode based on the target mode information determined by the WiFi mode information synchronization result of the user equipment and the corresponding network equipment 2. Here, the task corresponding to the target mode executed by the user equipment 1 may be to execute a WiFi connection operation in a corresponding WiFi mode or other tasks related to the WiFi connection based on a corresponding real-time application scenario and/or a difference of user application needs. Therefore, the WiFi connection operation mode is not single any more, the current different application scenes and application requirements of different users can be flexibly considered, and more refined services can be provided for the users. Meanwhile, the real-time performance of the target mode information can be ensured based on the target mode information determined by the WiFi mode information synchronization result of the user equipment 1 and the corresponding network equipment 2, so that the current scene of the user can be fitted better, the real-time requirement of the user is met, and the user experience effect is further improved.

Fig. 4 illustrates a flow chart of a method for performing WiFi mode tasks at a user equipment side and a network equipment side according to an aspect of the subject application. Wherein the method includes step S33 ', step S41', step S42 ', step S34', step S31 'and step S32'.

In one implementation of the present application, the WiFi mode task may be executed in the user device 1 and the network device 2, wherein the network device 2 includes, but is not limited to, a computer, a network host, a single network server, multiple network server sets, or a cloud server, wherein the cloud server is a virtual super computer that runs in a distributed system and is composed of a group of loosely coupled computer sets, and is used to implement a simple, efficient, secure, reliable, and processing-capability-scalable computing service.

Specifically, in step S33', the user equipment 1 may transmit version information of the first WiFi mode information to the network equipment 2. In one implementation, the method further includes step S35 '(not shown), and in step S35', the user equipment 1 may detect version information of the first WiFi mode information of the user equipment based on a preset trigger condition. Here, the trigger condition may be any custom condition for starting WiFi mode information synchronization, for example, the trigger condition may be that a user opens a target application in the user equipment 1; the trigger condition may also be that the user logs in a target application in the user equipment 1; the trigger condition may also be that the user switches to log in a target application in different user equipment 1, and the trigger condition may also be specific time information set in advance, such as performing the detection in a certain time period or at a certain time. When the trigger condition occurs, the user equipment 1 may obtain version information of the first WiFi mode information by detecting the local configuration file information, where the version information is used to identify different versions of WiFi mode information with the same mode identification information. For example, the WiFi mode information with the same identification information but different versions may be compared with the timestamp information of the independent configuration file of the WiFi mode information, the file fingerprint information of the independent configuration file, such as the file size information, and the like. Then, the user equipment 1 sends the detected version information of the first WiFi mode information to a network device.

Correspondingly, in step S41', the network device 2 may compare version information of the acquired first WiFi mode information in the user device 1 with version information of second WiFi mode information in the network device, where the second WiFi mode information is the same as the pattern identification information of the first WiFi mode information. Here, the pattern recognition information may be information for identifying different WiFi pattern information, for example, character string information for distinguishing individual profiles of scenes.

Next, in step S42', if the version information of the second WiFi mode information is higher than the version information of the first WiFi mode information, the network device 2 may provide the second WiFi mode information to the user device 1, wherein the user device 1 may determine the target WiFi mode information based on the second WiFi mode information. Correspondingly, in step S34', the user equipment 1 may acquire the second WiFi mode information provided by the network equipment 2. In an implementation manner, the WiFi mode information may be generated or updated in the network device 2, for example, in the optimal WiFi hotspot mode, the executable data information of the candidate WiFi hotspot may be determined by statistical analysis in the network device and updated in real time, so in practical applications, there may be a scenario where the network device 1 has been updated to the second WiFi mode information, and the user device 2 still has the previous version of the first WiFi mode information, that is, the version information of the second WiFi mode information in the network device 1 is higher than the first WiFi mode information, at this time, the user device 1 needs to obtain the second WiFi mode information in the network device 2, so as to implement corresponding information synchronization in the user device 1. In another implementation, the WiFi mode information may also be generated or updated in the user equipment 1, for example, the timing rule information in the timing switch WiFi mode may be set by the user in its corresponding one of the user equipments 1. However, when the latest WiFi mode information in the user equipment 1 is lost, or the user changes the user equipment, and only the first WiFi mode information with version information added thereto is reserved in the new user equipment 1, the user equipment 1 also needs to acquire the second WiFi mode information in the network equipment 2, and perform corresponding information synchronization in the new user equipment 1.

Next, in step S31', the user equipment 1 may synchronize the first WiFi mode information therein to the second WiFi mode information, including performing information update on the first WiFi mode information already in the user equipment 1, such as partial replacement or complete replacement with the second WiFi mode information; and determining the updated second WiFi mode information as target WiFi mode information. In step S32', the user equipment 1 performs a task corresponding to the target WiFi mode based on the target WiFi mode information.

In one implementation, in step S42', if the version information of the second WiFi mode information in the network device 2 is lower than the version information of the first WiFi mode information, the network device 2 may further obtain the first WiFi mode information from the user equipment 1. In one implementation, the network device 2 may send a first WiFi mode information obtaining request to the user equipment 1 when version information of second WiFi mode information is lower than version information of the first WiFi mode information; correspondingly, the user equipment 1 acquires the first WiFi mode information acquisition request, and sends the first WiFi mode information to the network equipment 2. In another implementation manner, the network device 2 may also send only one version information determination result to the user equipment 1, and the user equipment 1 provides the first WiFi mode information to the network device 2 based on the determination result. In another implementation manner, a waiting time of the version information determination result may also be set, if the waiting time is exceeded and the user equipment 1 has not received the second WiFi mode information provided by the network equipment 2, the user equipment 1 may determine that the version information of the first WiFi mode information of the user equipment 1 is not less than the second WiFi mode information, and at this time, the user equipment 1 may be set to actively send the first WiFi mode information to the network equipment 2, so that the network equipment 2 can update the second WiFi mode information.

Further, the method further includes step S43 '(not shown), in step S43', the second WiFi mode information in the network device 2 may be synchronized to the first WiFi mode information. In one implementation, the WiFi mode information may be generated or updated in the user equipment 1, for example, the timing rule information in the timing switch WiFi mode may be set by the user in its corresponding one of the user equipment 1. Here, the historical WiFi mode information in the user equipment 1 may be backed up in a synchronous manner in the network equipment 1, so that if the WiFi mode information in the user equipment 1 is lost or a user of the user equipment 1 changes the equipment, the user can synchronously restore the corresponding WiFi mode information through the data of the current user equipment 1 and the network equipment 2.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application 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 is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the apparatus claims may also be implemented by one unit or means in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Claims (19)

1. A method for performing WiFi mode task at a user equipment, wherein the method comprises:

sending version information of the first WiFi mode information to network equipment;

if the version information of second WiFi mode information in the network equipment is higher than the version information of the first WiFi mode information, acquiring second WiFi mode information provided by the network equipment, wherein the second WiFi mode information is the same as the pattern identification information of the first WiFi mode information, the pattern identification information is used for identifying different WiFi mode information, and the version information is used for identifying different versions of the WiFi mode information with the same pattern identification information;

determining target WiFi mode information based on a WiFi mode information synchronization result of the user equipment and the corresponding network equipment, wherein the determining target WiFi mode information comprises the following steps: synchronizing first WiFi mode information in user equipment into second WiFi mode information, and determining the second WiFi mode information as target WiFi mode information;

executing a task corresponding to a target WiFi mode based on the target WiFi mode information;

the user equipment deploys one or more different WiFi modes at the same time, corresponding WiFi mode information is configured for each WiFi mode, the different WiFi modes correspond to different WiFi application scenes, and under each WiFi mode, the user equipment executes WiFi connection operation matched with the WiFi mode information corresponding to the WiFi modes or other operation related to WiFi connection; the target WiFi mode includes at least any one of: an outgoing WiFi hotspot connection mode, a timed switch WiFi mode, an optimal WiFi hotspot mode, and a WiFi hotspot connection preference mode.

2. The method of claim 1, wherein the obtaining second WiFi mode information provided by a network device if version information of the second WiFi mode information in the network device is higher than version information of the first WiFi mode information, wherein the second WiFi mode information is the same as pattern identification information of the first WiFi mode information comprises:

if the version information of the second WiFi mode information in the network equipment is lower than the version information of the first WiFi mode information, the version information of the first WiFi mode information is sent to the network equipment;

wherein the determining target WiFi mode information based on the WiFi mode information synchronization result of the user equipment and the corresponding network equipment comprises:

determining the first WiFi mode information as target WiFi mode information.

3. The method according to claim 1 or 2, wherein the method further comprises:

detecting version information of first WiFi mode information of user equipment based on a preset trigger condition;

wherein the sending the version information of the first WiFi mode information to a network device comprises:

and sending the detected version information of the first WiFi mode information to network equipment.

4. The method of claim 1, wherein the target WiFi mode information comprises mode rule information and/or mode data information.

5. The method of claim 1, wherein the method further comprises:

monitoring current state information of user equipment;

wherein the executing the task corresponding to the target WiFi mode based on the target WiFi mode information includes:

and if the current state information meets the preset trigger condition corresponding to the target WiFi mode, executing a task corresponding to the target WiFi mode based on the target WiFi mode information.

6. The method of claim 1, wherein the performing a task corresponding to a target WiFi mode based on the target WiFi mode information comprises:

and executing a task corresponding to the target WiFi mode based on the target WiFi mode information and in combination with the user operation information.

7. A method for performing WiFi mode task at a network equipment end, wherein the method comprises the following steps:

comparing version information of first WiFi mode information in the obtained user equipment with version information of second WiFi mode information in the network equipment, wherein the second WiFi mode information is the same as the first WiFi mode information in mode identification information, the mode identification information is used for identifying different WiFi mode information, and the version information is used for identifying different versions of the WiFi mode information with the same mode identification information;

if the version information of the second WiFi mode information is higher than that of the first WiFi mode information, providing the second WiFi mode information to the user equipment, wherein the user equipment determines target WiFi mode information based on the second WiFi mode information;

the user equipment deploys one or more different WiFi modes at the same time, corresponding WiFi mode information is configured for each WiFi mode, the different WiFi modes correspond to different WiFi application scenes, and under each WiFi mode, the user equipment executes WiFi connection operation matched with the WiFi mode information corresponding to the WiFi modes or other operation related to WiFi connection; the target WiFi mode includes at least any one of: an outgoing WiFi hotspot connection mode, a timed switch WiFi mode, an optimal WiFi hotspot mode, and a WiFi hotspot connection preference mode.

8. The method of claim 7, wherein the providing the second WiFi mode information to the user equipment if the version information of the second WiFi mode information is higher than the version information of the first WiFi mode information, wherein the user equipment determining the target WiFi mode information based on the second WiFi mode information comprises:

and if the version information of the second WiFi mode information is lower than that of the first WiFi mode information, acquiring the first WiFi mode information from the user equipment.

9. The method of claim 8, wherein the method further comprises:

and synchronizing second WiFi mode information in the network equipment into the first WiFi mode information.

10. A user equipment for performing WiFi mode tasks, wherein the device comprises:

third means for sending version information of the first WiFi mode information to the network device;

a fourth device, configured to obtain second WiFi mode information provided by a network device if version information of the second WiFi mode information in the network device is higher than version information of the first WiFi mode information, where the second WiFi mode information is the same as pattern identification information of the first WiFi mode information, the pattern identification information is used to identify different WiFi mode information, and the version information is used to identify different versions of WiFi mode information with the same pattern identification information;

the first device is used for determining target WiFi mode information based on a WiFi mode information synchronization result of the user equipment and the corresponding network equipment; wherein the first apparatus has means for: synchronizing first WiFi mode information in user equipment into second WiFi mode information, and determining the second WiFi mode information as target WiFi mode information;

second means for executing a task corresponding to a target WiFi mode based on the target WiFi mode information;

the user equipment deploys one or more different WiFi modes at the same time, corresponding WiFi mode information is configured for each WiFi mode, the different WiFi modes correspond to different WiFi application scenes, and under each WiFi mode, the user equipment executes WiFi connection operation matched with the WiFi mode information corresponding to the WiFi modes or other operation related to WiFi connection; the target WiFi mode includes at least any one of: an outgoing WiFi hotspot connection mode, a timed switch WiFi mode, an optimal WiFi hotspot mode, and a WiFi hotspot connection preference mode.

11. The apparatus of claim 10, wherein the fourth means is for:

if the version information of the second WiFi mode information in the network equipment is lower than the version information of the first WiFi mode information, the version information of the first WiFi mode information is sent to the network equipment;

wherein the first means is for:

determining the first WiFi mode information as target WiFi mode information.

12. The apparatus of claim 10 or 11, wherein the apparatus further comprises:

a fifth means for detecting version information of the first WiFi mode information of the user equipment based on a preset trigger condition;

wherein the third means is for:

and sending the detected version information of the first WiFi mode information to network equipment.

13. The device of claim 10, wherein the target WiFi mode information comprises mode rule information and/or mode data information.

14. The apparatus of claim 10, wherein the apparatus further comprises:

a sixth means for monitoring current status information of the user equipment;

wherein the second means is for:

and if the current state information meets the preset trigger condition corresponding to the target WiFi mode, executing a task corresponding to the target WiFi mode based on the target WiFi mode information.

15. The apparatus of claim 10, wherein the second means is for:

and executing a task corresponding to the target WiFi mode based on the target WiFi mode information and in combination with the user operation information.

16. A network device that performs WiFi mode tasks, wherein the device comprises:

a seventh means for comparing version information of the acquired first WiFi mode information in the user equipment with version information of second WiFi mode information in the network equipment, where the second WiFi mode information is the same as the pattern identification information of the first WiFi mode information, the pattern identification information is used to identify different WiFi mode information, and the version information is used to identify different versions of WiFi mode information with the same pattern identification information;

an eighth means for providing the second WiFi mode information to the user equipment if the version information of the second WiFi mode information is higher than the version information of the first WiFi mode information, wherein the user equipment determines the target WiFi mode information based on the second WiFi mode information;

the user equipment deploys one or more different WiFi modes at the same time, corresponding WiFi mode information is configured for each WiFi mode, the different WiFi modes correspond to different WiFi application scenes, and under each WiFi mode, the user equipment executes WiFi connection operation matched with the WiFi mode information corresponding to the WiFi modes or other operation related to WiFi connection; the target WiFi mode includes at least any one of: an outgoing WiFi hotspot connection mode, a timed switch WiFi mode, an optimal WiFi hotspot mode, and a WiFi hotspot connection preference mode.

17. The apparatus of claim 16, wherein the eighth means is for:

and if the version information of the second WiFi mode information is lower than that of the first WiFi mode information, acquiring the first WiFi mode information from the user equipment.

18. The apparatus of claim 17, wherein the apparatus further comprises:

ninth means for synchronizing second WiFi mode information in a network device to the first WiFi mode information.

19. A system for performing WiFi mode tasks, wherein the system comprises:

the user equipment of any one of claims 10 to 15, and the network equipment of any one of claims 16 to 18.

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