CN114500367B - Path selection method and electronic equipment - Google Patents

Abstract

The application provides a path selection method, which comprises the following steps: responding to the fact that the electronic equipment meets a preset condition, controlling the electronic equipment to be connected to a first path, wherein the first path represents a path which can enter a target state under the preset condition after the electronic equipment enters the first path; wherein, the preset conditions include: accessing a preset object, using the preset object, transmitting data with preset parameters, presetting network performance parameters, presetting equipment model, presetting network disconnection time and presetting electric energy parameters. Meanwhile, the application also provides electronic equipment.

Description

Path selection method and electronic equipment

Technical Field

The present application relates to network path selection technologies, and in particular, to a path selection method and an electronic device.

Background

When the electronic device performs path selection, the electronic device generally performs path selection only according to the connection efficiency of the path, and does not have a method for performing path selection according to the conditions satisfied by the electronic device itself.

Disclosure of Invention

The technical scheme of the application is realized as follows:

according to an aspect of the present application, there is provided a path selection method, the method comprising: responding to the fact that the electronic equipment meets a preset condition, controlling the electronic equipment to be connected to a first path, wherein the first path represents a path which can enter a target state under the preset condition after the electronic equipment enters the first path;

Wherein, the preset conditions include: accessing a preset object, using the preset object, transmitting data with preset parameters, presetting network performance parameters, presetting equipment model, presetting network disconnection time and presetting electric energy parameters.

In the above solution, in the case that the preset condition includes the access to a preset object, the method further includes:

if the target object currently accessed by the electronic equipment is a preset object, controlling the electronic equipment to be connected to a first path;

or if the target object currently accessed by the electronic equipment is not the preset object, controlling the electronic equipment to be connected to a second path; so that the electronic equipment can successfully access the target object through the second path; the second path is different from the first path.

In the above solution, in the case that the preset object includes at least one of a preset application program and a preset website, the method further includes:

if the target application program currently operated by the electronic equipment is the preset application program, or if the target website currently accessed by the electronic equipment is a preset website, controlling the electronic equipment to be connected to a first path;

Or if the target application program currently operated by the electronic device is not the preset application program, or if the target website currently accessed by the electronic device is not the preset website, controlling the electronic device to be connected to a second path; the first path and the second path are different.

In the above solution, the controlling the electronic device to be connected to the first path includes:

controlling the electronic equipment to be connected to a first communication path, wherein the first communication path at least represents a wireless local area network path and/or a wired local area network path; to enable the electronic device to successfully access the target object, the target application, or the target website via the first communication path;

the controlling the electronic device to connect to a second path includes:

controlling the electronic equipment to be connected to a second communication path, wherein the second communication path at least characterizes a mobile internet path; so that the electronic device can successfully access the target object, the target application program or the target website through the second communication path.

In the above solution, in the case that the preset condition includes use by a preset object, the method further includes:

Acquiring image information of a currently used object of the electronic equipment through an image acquisition unit on the electronic equipment;

if the image information characterizes that the current use object is a preset use object, determining that the electronic equipment is currently used by the preset object, and controlling the electronic equipment to be connected to a first path; the electronic equipment successfully accesses the target object to be accessed by the current use object through the first path; the first path represents a wireless local area network path and/or a wired local area network path;

or if the image information characterizes that the current use object is not the preset use object, determining that the electronic equipment is currently used by the non-preset use object, and controlling the electronic equipment to be connected to a second path; and enabling the electronic equipment to successfully access the target object to be accessed by the current use object through the second path, wherein the second path characterizes a mobile internet path.

In the above aspect, in the case that the preset condition includes the data transmission with a preset parameter, the method further includes:

if the data capacity parameter of the target data to be transmitted currently by the electronic equipment is smaller than or equal to the preset data capacity parameter, determining that the electronic equipment transmits the data currently in a first preset parameter, and controlling the electronic equipment to be connected to a first path so that the electronic equipment successfully transmits the target data through the first path; the first path at least represents a wireless local area network path and/or a wired local area network path;

Or if the data capacity parameter of the target data to be transmitted currently by the electronic equipment is larger than the preset data capacity parameter, determining that the electronic equipment transmits data with the first preset parameter currently, and controlling the electronic equipment to be connected to a second path so that the electronic equipment successfully transmits the target data through the second path, wherein the second path represents a mobile internet path;

or if the data transmission speed of the target data to be transmitted currently by the electronic equipment is greater than or equal to the preset speed, determining that the electronic equipment transmits the data currently by using a second preset parameter, and controlling the electronic equipment to be connected to a first path so that the electronic equipment successfully transmits the target data through the first path; the first path at least represents a wireless local area network path and/or a wired local area network path;

or if the data transmission speed of the target data to be transmitted currently by the electronic equipment is smaller than the preset speed, determining that the electronic equipment transmits data with the second preset parameters currently, and controlling the electronic equipment to be connected to a second path so that the electronic equipment successfully transmits the target data through the second path; the second path characterizes a mobile internet path.

In the above solution, in the case where the preset condition includes the preset equipment model, the method further includes:

if the equipment model of the electronic equipment is the preset equipment model, controlling the electronic equipment to be connected to a first path so that the electronic equipment successfully accesses a target object through the first path, wherein the first path at least represents a wireless local area network path and/or a wired local area network path;

or if the equipment model of the electronic equipment is not the preset equipment model, controlling the electronic equipment to be connected to a second path so that the electronic equipment can successfully access the target object through the second path, wherein the second path at least represents a mobile internet path.

In the above solution, in the case that the preset condition includes the preset outage duration, the method further includes:

if the network disconnection time of the electronic equipment connected to the first path does not exceed the preset network disconnection time, controlling the electronic equipment to be connected to the first path so that the electronic equipment successfully accesses the target object through the first path, wherein the first path at least represents a wireless local area network path and/or a wired local area network path;

Or if the network disconnection time of the electronic equipment connected to the first path exceeds the preset network disconnection time, controlling the electronic equipment to be connected to a second path so that the electronic equipment successfully accesses the target object through the second path, wherein the second path at least characterizes a mobile internet path.

In the above solution, in the case that the preset condition includes the preset network performance parameter, the method further includes:

determining the times that the current network performance parameter of the electronic equipment is smaller than the preset network performance parameter in a preset time length;

if the number of times is smaller than a preset number of times, determining that the current network performance of the electronic equipment is excellent, and controlling the electronic equipment to be connected to a first sub-path in a first path so that the electronic equipment successfully accesses a target object through the first sub-path, wherein the first sub-path at least represents a wireless local area network path;

or if the number of times is greater than the preset number of times, determining that the current network performance of the electronic equipment is poor, and controlling the electronic equipment to be connected to a second communication path or to be connected to a second sub-path in the first path through a network cable so that the electronic equipment can successfully access the target object through the second communication path or the second sub-path, wherein the second path at least represents a mobile internet path, and the second sub-path at least represents a wired local area network path.

According to another aspect of the present application, there is provided an electronic apparatus including:

the control unit is used for responding to the fact that the electronic equipment meets a preset condition, controlling the electronic equipment to be connected to a first path, and enabling the first path to represent a path which can enter a target state under the preset condition after the electronic equipment enters the first path;

wherein, the preset conditions include: accessing a preset object, using the preset object, transmitting data with preset parameters, presetting network performance parameters, presetting equipment model, presetting network disconnection time and presetting electric energy parameters.

According to the path selection method and the electronic device, when the electronic device meets the preset condition, the electronic device is controlled to be connected to the first path, so that the electronic device enters the target state based on the first path. Therefore, when the user uses the electronic equipment, the user can automatically connect to different paths according to different preset conditions met by the electronic equipment without manually switching between different paths, so that the electronic equipment enters a target state after entering the target path. The use experience and the working efficiency of the user are greatly improved.

Drawings

FIG. 1 is a schematic diagram of a process implementation of a path selection method according to the present application;

FIG. 2 is a schematic diagram showing the structural components of an electronic device according to the present application;

fig. 3 is a schematic diagram showing a structural composition of an electronic device according to the present application.

Detailed Description

The technical scheme of the application is further elaborated below by referring to the drawings in the specification and the specific embodiments.

Fig. 1 is a schematic diagram of a flow implementation of a path selection method in the present application, as shown in fig. 1, where the method includes:

step 101, in response to the electronic device meeting a preset condition, controlling the electronic device to be connected to a first path, wherein the first path represents a path which the electronic device can enter a target state under the preset condition after entering the first path.

The method can be applied to electronic equipment such as computers, mobile phones, watches, intelligent sound boxes and the like. The electronic equipment can be connected to the mobile internet or a local area network, and can be freely switched between the mobile internet and the local area network.

Specifically, if the user uses the electronic device and the electronic device satisfies a preset condition under the condition that the electronic device is currently connected to the local area network, the control unit in the electronic device may control the electronic device to be connected to the first path, so that the electronic device enters the target state under the first path.

Here, the first path may be a current local area network or the mobile internet. The state that the electronic device enters the target state under the first path may specifically be a state that the electronic device can successfully access the target object under the first path, or a state that the electronic device can successfully use the target object, or a state that the electronic device can normally transmit data.

Specifically, if the electronic equipment currently meets the preset condition, the electronic equipment is controlled to be continuously connected to the current local area network, so that the electronic equipment successfully accesses the target object through the current local area network; and if the electronic equipment does not meet the preset condition currently, controlling the electronic equipment to switch from the current local area network to the mobile internet so that the electronic equipment can successfully access the target object under the mobile internet.

In the present application, the preset conditions satisfied by the electronic device include, but are not limited to: accessing a preset object, using the preset object, transmitting data with preset parameters, presetting network performance parameters, presetting equipment model, presetting network disconnection time and presetting electric energy parameters. The preset condition can be set by a designer when the equipment leaves the factory or by a user.

According to the application, through different preset conditions met by the electronic equipment, the electronic equipment is intelligently controlled to be connected to different paths so as to enable the electronic equipment to enter a target state after being connected to the target path, so that the complicated process of manually switching between different paths by a user is omitted, and the network use experience of the user is also improved.

In the present application, in the case that the preset condition includes accessing a preset object, the preset object includes, but is not limited to, an application, a website, a file.

Specifically, if the target object currently accessed by the electronic device is a preset object, the electronic device is controlled to be connected to a first path, so that the electronic device can successfully access the target object through the first path. If the target object currently accessed by the electronic equipment is not a preset object, controlling the electronic equipment to be connected to a second path; so that the electronic device can successfully access the target object through the second path.

Here, the second path is different from the first path.

For example, the first path is a local area network communication path and the second path is a mobile internet communication path.

In example 1, in an implementation scenario in which the preset object is an application, if the application currently running on the electronic device is application a, the electronic device may compare the application a with a preset application in a preset database to determine whether the application a is a preset application, so as to obtain a comparison result. If the comparison result indicates that the application program A is a preset application program, the electronic device is controlled to be connected to the first communication path through the control unit of the electronic device. Here, the first communication path characterizes at least a wireless local area network path and/or a wired local area network path; so that the electronic device can successfully access application a via the first communication path. If the comparison result indicates that the application program A is not the preset application program, the control unit of the electronic device controls the electronic device to be connected to the second communication path. Here, the second communication path characterizes at least a mobile internet path; so that the electronic device can successfully access application a via the second communication path.

Here, successful access to the application a means that the application a can be successfully opened and the function of the application a can be normally used. Therefore, the electronic equipment can be automatically switched to different communication paths under the condition that a user does not feel different through the currently operated application program, so that the currently operated application program is successfully accessed through the target communication path, and the user does not need to manually switch the network, so that the use experience of the user can be improved, and the operation complexity of the user can be reduced.

In example 2, in an implementation scenario in which the preset object is a website, if the target website currently accessed by the electronic device is website a, the electronic device may compare the access address of the website a with a preset website in a preset database to determine whether the website a is a preset website, so as to obtain a comparison result. If the comparison result indicates that the website A is a preset website, the electronic device is controlled to be connected to a first communication path so that the electronic device can successfully access the website A through the first communication path. Here, the first communication path characterizes at least a wireless local area network path and/or a wired local area network path. If the comparison result indicates that the website A is not the preset website, the control unit of the electronic device can control the electronic device to be connected to the second communication path so that the electronic device can successfully access the website A through the second communication path. Here, the second communication path characterizes at least a mobile internet path.

Here, successful access to website a means that it is possible to successfully open website a and to successfully browse or download the display content or data of website a. Therefore, the electronic equipment can be automatically switched to different communication paths under the condition that a user does not feel through different accessed websites so as to successfully access the target website through the target communication path, network switching is not required to be manually performed by the user, and the time for manually switching the network by the user is reduced.

In example 3, in an implementation scenario in which the preset object is a file, if the electronic device is currently downloading the file a, the electronic device may compare the download path of the file a with a preset download path to determine whether the download path of the file a is the preset download path, and if the comparison result indicates that the download path of the file a is the preset download path, control the electronic device to connect to a first communication path through a control unit of the electronic device, so that the electronic device can successfully download the file a through the first communication path. Here, the first communication path characterizes at least a wireless local area network path and/or a wired local area network path; if the comparison result indicates that the downloading path of the file A is not the preset downloading path, the electronic device can control the electronic device to be connected to a second communication path through the control unit, so that the electronic device can successfully download the file A through the second communication path. Here, the second communication path characterizes at least a mobile internet path.

For example, if the file a currently downloaded by the electronic device is a file in the company, the electronic device is controlled to be connected to the intranet, and the file a is successfully downloaded through the intranet. If the file A currently downloaded by the electronic equipment is not a file in the company, such as a file on a certain website, the electronic equipment is controlled to be connected to the mobile internet, and the file A is successfully downloaded through the mobile internet.

Therefore, the electronic equipment can be automatically switched to different communication paths under the condition that a user does not feel through different download paths of the files, so that the target file is successfully downloaded through the target communication path, the user does not need to manually switch the network, and the time for manually switching the network by the user is reduced.

In the application, under the condition that the preset condition comprises the use of a preset object, the electronic equipment can also trigger the image acquisition unit on the electronic equipment in real time or at intervals so that the image acquisition unit acquires the image information of the currently used object of the electronic equipment. If the image information represents that the current use object of the electronic equipment is a preset use object, determining that the electronic equipment is currently used by the preset object, and controlling the electronic equipment to be connected to a first communication path; so that the electronic equipment successfully accesses the target object to be accessed by the current use object through the first communication path; here, the first communication path characterizes a wireless local area network path and/or a wired local area network path. If the image information represents a currently used object of the electronic equipment to be used by a non-preset object, determining that the electronic equipment is currently used by the non-preset object, and controlling the electronic equipment to be connected to a second communication path; so that the electronic device successfully accesses the target object to be accessed by the currently used object of the electronic device through the second communication path. Here, the second communication path characterizes a mobile internet path.

For example, when the user a is an internal employee of a company, the electronic device may collect face image information of the user a through a camera (which may be a camera on the electronic device or an external camera connected to the electronic device), and by comparing the face image information of the user a with face image information in a company employee database, it is determined that the user a is an internal employee of the company, and then the electronic device is controlled to be connected to an intranet of the company so as to access a target object through the intranet of the company.

For another example, when the user B is a corporate visitor, the electronic device collects face image information of the user B through the camera, and determines that the user B is a corporate visitor by comparing the face image information of the user B with face image information in a corporate employee database, and then controls the electronic device to be connected to a corporate extranet so as to access a target object through the corporate extranet.

Therefore, the application can switch to different communication paths to access the target object according to different using objects of the electronic equipment by judging whether the current using object of the electronic equipment is the target using object, so that the data privacy of the user can be protected, and the free switching of the paths can be realized under the condition that the user does not feel.

In the application, under the condition that the preset condition comprises data transmission with preset parameters, the electronic equipment can also control the electronic equipment to be connected to different paths for data transmission according to the difference of the data capacity or the data speed of the target data to be transmitted currently.

Specifically, if the data capacity parameter of the target data to be currently transmitted by the electronic device is smaller than or equal to the preset data capacity parameter, determining that the electronic device currently transmits data with the first preset parameter, and controlling the electronic device to be connected to a first path through a control unit of the electronic device so that the electronic device successfully transmits the target data through the first path. Here, the first path characterizes at least a wireless local area network path and/or a wired local area network path. If the data capacity parameter of the target data to be transmitted currently by the electronic device is larger than the preset data capacity parameter, determining that the electronic device transmits data with the first preset parameter currently, and controlling the electronic device to be connected to a second path through a control unit of the electronic device so that the electronic device successfully transmits the target data through the second path. Here, the second path characterizes a mobile internet path.

For example, if the data capacity of the target data to be transmitted currently is 2GB, the electronic device is connected to the internal network of the company, and can transmit through the internal network of the company. If the data capacity of the target data currently transmitted by the electronic device is 3GB, the target data cannot be transmitted through the corporate network, and the target data needs to be connected to the corporate external network to switch to the corporate external network for transmission. Therefore, the throughput rate of the network inside the company can be ensured, and the problem of unsmooth network caused by larger transmission data is avoided.

In the application, if the data transmission speed of the target data to be transmitted currently by the electronic device is greater than or equal to the preset speed, the electronic device can be determined to transmit the data currently by the second preset parameter, and the electronic device can be controlled to be connected to the first path through the control unit of the electronic device, so that the electronic device can successfully transmit the target data through the first path. Here, the first path characterizes at least a wireless local area network path and/or a wired local area network path; if the data transmission speed of the target data to be transmitted currently by the electronic device is smaller than the preset speed, it can be determined that the electronic device is currently transmitting data with the second preset parameter, and the electronic device is controlled to be connected to a second path through the control unit of the electronic device, so that the electronic device successfully transmits the target data through the second path. Here, the second path characterizes a mobile internet path.

For example, if the current target data rate to be transmitted of the electronic device is 100MB/S, the electronic device is connected to the internal network of the company, and the instruction can be transmitted through the internal network of the company; if the current target data rate to be transmitted of the electronic device is 20MB/S, the current internal network of the company is not good, and the electronic device is connected to the external network of the company to transmit through the external network of the company. Therefore, the data transmission rate can be ensured, and the bad experience brought to the user by time delay is reduced.

In the application, under the condition that the preset condition comprises a preset equipment model, the electronic equipment can also acquire equipment model information of the electronic equipment, and match the equipment model information with the preset equipment model, if the matching result indicates that the equipment model of the electronic equipment is the preset equipment model, the electronic equipment is controlled to be connected to a first path through a control unit of the electronic equipment, so that the electronic equipment successfully accesses a target object through the first path, and the first path at least represents a wireless local area network path and/or a wired local area network path; and if the matching result represents that the equipment model of the electronic equipment is not the preset equipment model, controlling the electronic equipment to be connected to a second path through a control unit of the electronic equipment, so that the electronic equipment successfully accesses the target object through the second path. Here, the second path characterizes at least the mobile internet path.

For example, the device model of the electronic device is XX00, and the mobile phone is characterized, so that the electronic device is controlled to be connected to an external network of a company, namely, the mobile internet, to access data through the external network of the company. If the device model of the electronic device is XX11, representing a notebook computer, the electronic device is controlled to be connected to an internal network of a company, namely a local area network, so as to access data through the local area network of the company. Therefore, the office demand can be ensured, and the occupation of non-office equipment such as mobile phones and the like to the internal network of the company can be avoided.

In the application, under the condition that the preset condition comprises the preset network disconnection time length, the electronic equipment can also acquire the network disconnection time length of the electronic equipment connected to the target local area network, compare the network disconnection time length with the preset network disconnection time length, and if the comparison result indicates that the network disconnection time length of the electronic equipment connected to the first path (the target local area network) does not exceed the preset network disconnection time length, control the electronic equipment to be connected to the first path through the control unit of the electronic equipment so as to enable the electronic equipment to successfully access the target object through the first path. Here, the first path characterizes at least a wireless local area network path and/or a wired local area network path. If the network disconnection time of the electronic equipment connected to the first path (target local area network) exceeds the preset network disconnection time, the control unit of the electronic equipment controls the electronic equipment to be connected to the second path so that the electronic equipment can successfully access the target object through the second path. Here, the second path characterizes at least the mobile internet path.

For example, when the electronic device is disconnected from the company intranet, the electronic device may record the disconnection time of the electronic device from the company intranet, and if the disconnection time exceeds 24 hours, when the electronic device reenters the company intranet area, the electronic device is controlled to connect to the mobile internet, so as to access and transmit data through the mobile internet. If the network disconnection time is not longer than 24 hours, controlling the electronic equipment to be connected with the company intranet when the electronic equipment reenters the company intranet area so as to access and transmit data through the company intranet. Thus, the influence or loss of the company data caused by the invasion of illegal electronic equipment can be avoided.

In the application, the electronic equipment can also record the times of disconnecting the target path of the electronic equipment, and if the times of disconnecting the target path of the electronic equipment does not reach the preset times, the electronic equipment is controlled to be connected to the first path so as to access data and transmit data through the first path. Here, the first path characterizes a wireless local area network and/or a wired local area network. And if the number of times that the electronic equipment disconnects the target path reaches the preset number of times, controlling the electronic equipment to be connected to a second path so as to access and transmit data through the second path. Here, the second path characterizes the mobile internet.

For example, if the electronic device is frequently connected to and disconnected from the company internal network and the number of times of frequently connecting to and disconnecting from the company internal network within 24 hours a day is not 10, the electronic device is controlled to be connected to the first path (the company internal network) to access data and transmit data through the first path. If the company intranet is frequently connected and disconnected 10 times within 24 hours a day, the control electronic device is connected to the second path (mobile internet). To access data and transmit data over a second path. Thus, the electronic equipment can be prevented from accessing the company internal network through illegal software.

In the present application, when the preset condition includes a preset network performance parameter, the electronic device may further acquire a transmission power parameter of the electronic device (a signal sent by the electronic device to the routing device) as the network performance parameter, or acquire a signal quality parameter of the electronic device (a signal sent by the electronic device to the routing device) as the network performance parameter. Determining the times that the current network performance parameter of the electronic equipment is smaller than the preset network performance parameter in the preset time length; if the number of times is smaller than the preset number of times, determining that the current network performance of the electronic equipment is excellent, and controlling the electronic equipment to be connected to a first sub-path in the first path through a control unit of the electronic equipment so that the electronic equipment can successfully access the target object through the first sub-path. Here, the first sub-path characterizes at least a wireless local area network path. If the number of times is greater than the preset number of times, determining that the current network performance of the electronic equipment is poor, and controlling the electronic equipment to be connected to a second communication path or a second sub-path in the first path through a network cable by a control unit of the electronic equipment so that the electronic equipment successfully accesses a target object through the second communication path or the second sub-path. Wherein the second path characterizes at least a mobile internet path and the second sub-path characterizes at least a wired local area network path.

For example, the electronic device is provided with a cable, and the cable can be stored in the accommodating cavity of the electronic device when the cable is not used at ordinary times. When the current network performance of the electronic device is poor (for example, time delay is 1000 dbm/ms) and the cable is required to be used, the electronic device can control the cable to extend out of the accommodating cavity from the accommodating cavity and search a target network interface in a preset range, and if the electronic device has the target network port in the preset range, the network interface of the cable can be connected (for example, adsorption connection) with the target network port in the current environment, so that the electronic device is connected to a wired local area network path to perform data access and data transmission through the wired local area network path. If the current network performance of the electronic device is better (such as a delay of 23 dbm/ms), the electronic device can be controlled to be connected to the wireless local area network path so as to perform data access and data transmission through the wireless local area network path. Therefore, the network stability can be improved, and the influence caused by the data transmission delay is reduced.

In the application, under the condition that the preset condition comprises the electric energy parameter, the electronic equipment can also acquire the current electric energy residual parameter of the electronic equipment, and if the current electric energy residual parameter of the electronic equipment is smaller than the preset electric energy parameter, the electronic equipment is controlled to be connected to the first path through the control unit of the electronic equipment, so that the electronic equipment realizes data transmission through the first path. Here, the first path characterizes at least a first current path; and if the current electric energy residual parameter of the electronic equipment is larger than or equal to the preset electric energy parameter, controlling the electronic equipment to be connected to a second path through a control unit of the electronic equipment so that the electronic equipment realizes data transmission through the second path, wherein the second path at least represents a second current path.

The voltage parameter of the first current path is smaller than that of the second current path.

For example, if the current remaining power of the electronic device is 5%, the electronic device is controlled to be connected to the low power consumption path, so that the electronic device can only make a call in the low power consumption path, or the display screen is controlled to display content with preset brightness. If the current residual electric quantity of the electronic equipment is 50%, the electronic equipment is controlled to be connected to a high-power-consumption path, so that the electronic equipment can realize all functions supported by the electronic equipment under the high-power-consumption path, and a display screen of the electronic equipment is controlled to display contents with display brightness set by a user. Therefore, the basic function of the electronic equipment can be guaranteed to the greatest extent possible, and the user is reminded of needing to charge the electronic equipment as soon as possible through the limitation of the function and the change of the display brightness of the display screen.

For another example, when the current remaining power of the electronic device is 50%, the electronic device is controlled to be connected to a first current path, for example, a voltage of 30V in the first current path. When the current remaining power of the electronic device is 10%, the electronic device is controlled to be connected to the second current path, for example, the voltage in the second current path is 5V. Thus, the electric energy using time of the electronic equipment can be prolonged.

According to the path selection method provided by the application, the electronic equipment is controlled to be automatically connected to the first path or the second path according to the preset condition currently met by the electronic equipment, so that the electronic equipment can be automatically switched to the corresponding communication path to perform data access or transmission according to different accessed objects, the time that a user needs to frequently perform manual switching in different communication paths is saved, and the use experience of the user is improved.

Fig. 2 is a schematic diagram of the structural composition of an electronic device according to the present application, as shown in fig. 2, the electronic device includes:

a control unit 201, configured to control, in response to an electronic device meeting a preset condition, the electronic device to connect to a first path, where the first path represents a path that the electronic device can enter a target state under the preset condition after entering the first path;

wherein, the preset conditions include: accessing a preset object, using the preset object, transmitting data with preset parameters, presetting network performance parameters, presetting equipment model, presetting network disconnection time and presetting electric energy parameters.

In a preferred solution, if the preset condition includes the access to the preset object, the control unit 201 is specifically further configured to control the electronic device to connect to the first path if the target object currently accessed by the electronic device is the preset object; or if the target object currently accessed by the electronic equipment is not the preset object, controlling the electronic equipment to be connected to a second path; so that the electronic equipment can successfully access the target object through the second path; the second path is different from the first path.

For example, the first path and the second path are both communication paths, wherein the first path is a wireless local area network and/or a wired local area network communication path and the second path is a mobile internet path.

For another example, the first path and the second path are both current paths, wherein the first path is a 30 milliamp current path and the second path is a 10 milliamp current path.

For another example, the first path and the second path are both data transmission paths, wherein the first path is a video data transmission path and the second path is an audio transmission path.

Specifically, if the current electronic device transmits audio data, the control electronic device is connected to the audio transmission path to transmit the audio data through the audio transmission path. If the current electronic device transmits video data, the control electronic device is connected to the video transmission path to transmit the video data through the video transmission path.

In a preferred solution, if the preset object includes at least one of a preset application program and a preset website, if the target application program currently operated by the electronic device is the preset application program, or if the target website currently accessed by the electronic device is the preset website, the control unit 201 is specifically further configured to control the electronic device to connect to the first path; or if the target application program currently operated by the electronic device is not the preset application program, or if the target website currently accessed by the electronic device is not the preset website, controlling the electronic device to be connected to a second path; the first path and the second path are different.

In a preferred embodiment, the control unit 201 controls the electronic device to be connected to a first path, specifically may control the electronic device to be connected to a first communication path, where the first communication path at least characterizes a wireless lan path and/or a wired lan path; to enable the electronic device to successfully access the target object, the target application, or the target website via the first communication path; the control unit 201 may control the electronic device to connect to a second path, specifically may also control the electronic device to connect to a second communication path, where the second communication path at least characterizes a mobile internet path; so that the electronic device can successfully access the target object, the target application program or the target website through the second communication path.

In a preferred embodiment, the electronic device further comprises a determining unit 202;

specifically, in the case that the preset condition includes use by a preset object, the control unit 201 is specifically further configured to control the image acquisition unit on the electronic device to acquire image information of a currently used object of the electronic device; if the image information indicates that the current use object is a preset use object, the determining unit 202 determines that the electronic device is currently used by the preset object, and then the triggering control unit 201 controls the electronic device to be connected to a first path; the electronic equipment successfully accesses the target object to be accessed by the current use object through the first path; the first path represents a wireless local area network path and/or a wired local area network path; alternatively, if the image information characterizes that the currently used object is not the preset used object, the determining unit 202 determines that the electronic device is currently used by the non-preset object, and then triggers the control unit 201 to control the electronic device to be connected to a second path; and enabling the electronic equipment to successfully access the target object to be accessed by the current use object through the second path, wherein the second path characterizes a mobile internet path.

In a preferred solution, if the preset condition includes the data transmission with the preset parameter, the determining unit 202 is further configured to determine that the electronic device is currently transmitting data with the first preset parameter if the data capacity parameter of the target data to be currently transmitted by the electronic device is less than or equal to the preset data capacity parameter, and then trigger the control unit 201 to control the electronic device to connect to the first path, so that the electronic device successfully transmits the target data through the first path; the first path at least represents a wireless local area network path and/or a wired local area network path; or if the data capacity parameter of the target data to be transmitted currently by the electronic device is greater than the preset data capacity parameter, the determining unit 202 determines that the electronic device is currently transmitting data with the first preset parameter, and then triggers the control unit 201 to control the electronic device to be connected to a second path, so that the electronic device successfully transmits the target data through the second path, and the second path characterizes a mobile internet path; or if the data transmission speed of the target data to be transmitted currently by the electronic device is greater than or equal to the preset speed, the determining unit 202 determines that the electronic device is currently transmitting data with a second preset parameter, and then triggers the control unit 201 to control the electronic device to be connected to a first path, so that the electronic device successfully transmits the target data through the first path; the first path at least represents a wireless local area network path and/or a wired local area network path; or if the data transmission speed of the target data to be transmitted currently by the electronic device is less than the preset speed, the determining unit 202 determines that the electronic device is currently transmitting data with a non-second preset parameter, and then triggers the control unit 201 to control the electronic device to be connected to a second path, so that the electronic device successfully transmits the target data through the second path; the second path characterizes a mobile internet path.

In a preferred solution, if the preset condition includes the preset device model, the control unit 201 is specifically further configured to control the electronic device to connect to a first path if the device model of the electronic device is the preset device model, so that the electronic device successfully accesses the target object through the first path, where the first path at least characterizes a wireless lan path and/or a wired lan path; or if the device model of the electronic device is not the preset device model, the control unit 201 is specifically further configured to control the electronic device to connect to a second path, so that the electronic device successfully accesses the target object through the second path, where the second path at least characterizes a mobile internet path.

In a preferred solution, if the preset condition includes the preset network disconnection time period, if the network disconnection time period during which the electronic device is connected to the first path does not exceed the preset network disconnection time period, the control unit 201 is specifically further configured to control the electronic device to be connected to the first path, so that the electronic device successfully accesses the target object through the first path, where the first path at least characterizes a wireless local area network path and/or a wired local area network path; or if the network disconnection time period of the electronic device connected to the first path exceeds the preset network disconnection time period, the control unit 201 is specifically further configured to control the electronic device to be connected to a second path, so that the electronic device successfully accesses the target object through the second path, and the second path at least characterizes the mobile internet path.

In a preferred embodiment, when the preset condition includes the preset network performance parameter, the determining unit 202 is further configured to determine a number of times that the current network performance parameter of the electronic device is smaller than the preset network performance parameter in a preset duration; and if the number of times is smaller than a preset number of times, determining that the current network performance of the electronic device is good, and then triggering the control unit 201 to control the electronic device to be connected to a first sub-path in a first path, so that the electronic device successfully accesses a target object through the first sub-path, wherein the first sub-path at least characterizes a wireless local area network path; or if the number of times is greater than the preset number of times, the determining unit 202 determines that the current network performance of the electronic device is poor, and then triggers the control unit 201 to control the electronic device to be connected to a second communication path or to be connected to a second sub-path in the first path through a network cable, so that the electronic device successfully accesses the target object through the second communication path or the second sub-path, wherein the second path at least represents a mobile internet path, and the second sub-path at least represents a wired local area network path.

It should be noted that: in the electronic device provided in the above embodiment, only the division of each program module is used for illustration when path selection is performed, and in practical application, the processing allocation may be performed by different program modules according to needs, that is, the internal structure of the electronic device is divided into different program modules, so as to complete all or part of the processing described above. In addition, the electronic device and the path selection method provided in the foregoing embodiments belong to the same concept, and specific implementation processes of the electronic device and the path selection method are detailed in the method embodiments and are not described herein again.

The embodiment of the application also provides electronic equipment, which comprises: a processor and a memory for storing a computer program capable of running on the processor, wherein the processor is configured to implement any one of the above-described routing schemes when running the computer program.

Fig. 3 is a schematic diagram showing a second structural component of an electronic device 300 according to the present application, which may be a mobile phone, a computer, a digital broadcasting terminal, an information transceiver, a game console, a tablet device, a medical device, a fitness device, a personal digital assistant, etc. The electronic device 300 shown in fig. 3 includes: at least one processor 301, a memory 302, at least one network interface 304, and a user interface 303. The various components in the electronic device 300 are coupled together by a bus system 305. It is understood that the bus system 305 is used to enable connected communications between these components. The bus system 305 includes a power bus, a control bus, and a status signal bus in addition to the data bus. But for clarity of illustration the various buses are labeled as bus system 305 in fig. 3.

The user interface 303 may include, among other things, a display, keyboard, mouse, trackball, click wheel, keys, buttons, touch pad, or touch screen, etc.

It is to be appreciated that memory 302 can be either volatile memory or nonvolatile memory, and can include both volatile and nonvolatile memory. Wherein the nonvolatile Memory may be Read Only Memory (ROM), programmable Read Only Memory (PROM, programmable Read-Only Memory), erasable programmable Read Only Memory (EPROM, erasable Programmable Read-Only Memory), electrically erasable programmable Read Only Memory (EEPROM, electrically Erasable Programmable Read-Only Memory), magnetic random access Memory (FRAM, ferromagnetic random access Memory), flash Memory (Flash Memory), magnetic surface Memory, optical disk, or compact disk Read Only Memory (CD-ROM, compact Disc Read-Only Memory); the magnetic surface memory may be a disk memory or a tape memory. The volatile memory may be random access memory (RAM, random Access Memory), which acts as external cache memory. By way of example, and not limitation, many forms of RAM are available, such as static random access memory (SRAM, static Random Access Memory), synchronous static random access memory (SSRAM, synchronous Static Random Access Memory), dynamic random access memory (DRAM, dynamic Random Access Memory), synchronous dynamic random access memory (SDRAM, synchronous Dynamic Random Access Memory), double data rate synchronous dynamic random access memory (ddr SDRAM, double Data Rate Synchronous Dynamic Random Access Memory), enhanced synchronous dynamic random access memory (ESDRAM, enhanced Synchronous Dynamic Random Access Memory), synchronous link dynamic random access memory (SLDRAM, syncLink Dynamic Random Access Memory), direct memory bus random access memory (DRRAM, direct Rambus Random Access Memory). The memory 302 described in embodiments of the present application is intended to comprise, without being limited to, these and any other suitable types of memory.

The memory 302 in embodiments of the present application is used to store various types of data to support the operation of the electronic device 300. Examples of such data include: any computer programs for operation on the electronic device 300, such as an operating system 3021 and application programs 3022; contact data; telephone book data; a message; a picture; video, etc. The operating system 3021 includes various system programs, such as a framework layer, a core library layer, a driver layer, and the like, for implementing various basic services and processing hardware-based tasks. The application 3022 may include various applications such as a Media Player (Media Player), a Browser (Browser), etc. for implementing various application services. The program for implementing the method of the embodiment of the present application may be included in the application program 3022.

The method disclosed in the above embodiment of the present application may be applied to the processor 301 or implemented by the processor 301. The processor 301 may be an integrated circuit chip with signal processing capabilities. In implementation, the steps of the above method may be performed by integrated logic circuitry of hardware in the processor 301 or instructions in the form of software. The processor 301 may be a general purpose processor, a digital signal processor (DSP, digital Signal Processor), or other programmable logic device, discrete gate or transistor logic device, discrete hardware components, or the like. Processor 301 may implement or perform the methods, steps and logic blocks disclosed in embodiments of the present application. The general purpose processor may be a microprocessor or any conventional processor or the like. The steps of the method disclosed in the embodiment of the application can be directly embodied in the hardware of the decoding processor or can be implemented by combining hardware and software modules in the decoding processor. The software module may be located in a storage medium located in the memory 302, the processor 301 reading information in the memory 302, in combination with its hardware performing the steps of the method described above.

In an exemplary embodiment, the electronic device 300 may be implemented by one or more application specific integrated circuits (ASIC, application Specific Integrated Circuit), DSPs, programmable logic devices (PLD, programmable Logic Device), complex programmable logic devices (CPLD, complex Programmable Logic Device), field-programmable gate arrays (FPGA, field-Programmable Gate Array), general purpose processors, controllers, microcontrollers (MCU, micro Controller Unit), microprocessors (Microprocessor), or other electronic components for performing the aforementioned methods.

In an exemplary embodiment, the present application also provides a computer-readable storage medium, such as a memory 302, comprising a computer program executable by the processor 301 of the electronic device 300 to perform the steps of the method described above. The computer readable storage medium may be FRAM, ROM, PROM, EPROM, EEPROM, flash Memory, magnetic surface Memory, optical disk, or CD-ROM; but may be a variety of devices including one or any combination of the above-described memories, such as a mobile phone, computer, tablet device, personal digital assistant, or the like.

A computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs any one of the implementations of the path selection method described above.

In the several embodiments provided by the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above described device embodiments are only illustrative, e.g. the division of the units is only one logical function division, and there may be other divisions in practice, such as: multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. In addition, the various components shown or discussed may be coupled or directly coupled or communicatively coupled to each other via some interface, whether indirectly coupled or communicatively coupled to devices or units, whether electrically, mechanically, or otherwise.

The units described as separate units may or may not be physically separate, and units displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units; some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

The methods disclosed in the method embodiments provided by the application can be arbitrarily combined under the condition of no conflict to obtain a new method embodiment.

The features disclosed in the several product embodiments provided by the application can be combined arbitrarily under the condition of no conflict to obtain new product embodiments.

The features disclosed in the embodiments of the method or the apparatus provided by the application can be arbitrarily combined without conflict to obtain new embodiments of the method or the apparatus.

The foregoing is merely illustrative of the present application, and the present application is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (9)

1. A method of path selection, the method comprising:

responding to the fact that the electronic equipment meets a preset condition, controlling the electronic equipment to be connected to a first path, wherein the first path represents a path which can enter a target state under the preset condition after the electronic equipment enters the first path;

Wherein, the preset conditions include: accessing a preset object, using the preset object, transmitting data with preset parameters, presetting network performance parameters, presetting equipment model, presetting network disconnection time and presetting electric energy parameters;

in the case that the preset condition includes the preset equipment model, the method further includes:

if the equipment model of the electronic equipment is the preset equipment model, controlling the electronic equipment to be connected to the first path so that the electronic equipment successfully accesses a target object through the first path, wherein the first path at least represents a wireless local area network path and/or a wired local area network path;

or if the equipment model of the electronic equipment is not the preset equipment model, controlling the electronic equipment to be connected to a second path so that the electronic equipment can successfully access the target object through the second path, wherein the second path at least represents a mobile internet path.

2. The method of claim 1, further comprising, in the case where the preset condition includes the access preset object:

if the target object currently accessed by the electronic equipment is a preset object, controlling the electronic equipment to be connected to the first path;

Or if the target object currently accessed by the electronic equipment is not the preset object, controlling the electronic equipment to be connected to the second path; so that the electronic equipment can successfully access the target object through the second path; the second path is different from the first path.

3. The method of claim 2, in the case that the preset object includes at least one of a preset application and a preset website, the method further comprising:

if the target application program currently operated by the electronic equipment is the preset application program, or if the target website currently accessed by the electronic equipment is the preset website, controlling the electronic equipment to be connected to the first path;

or if the target application program currently operated by the electronic device is not the preset application program, or if the target website currently accessed by the electronic device is not the preset website, controlling the electronic device to be connected to the second path; the first path and the second path are different.

4. A method according to claim 2 or 3, the controlling the electronic device to connect to a first path comprising:

Controlling the electronic equipment to be connected to a first communication path, wherein the first communication path at least represents a wireless local area network path and/or a wired local area network path; enabling the electronic device to successfully access the target object, target application or target website through the first communication path;

the controlling the electronic device to connect to a second path includes:

controlling the electronic equipment to be connected to a second communication path, wherein the second communication path at least characterizes a mobile internet path; so that the electronic device can successfully access the target object, the target application program or the target website through the second communication path.

5. The method of claim 1, further comprising, in the case where the preset condition includes use of the preset object:

acquiring image information of a currently used object of the electronic equipment through an image acquisition unit on the electronic equipment;

if the image information characterizes that the current use object is a preset use object, determining that the electronic equipment is currently used by the preset object, and controlling the electronic equipment to be connected to the first path; the electronic equipment successfully accesses the target object to be accessed by the current use object through the first path; the first path represents a wireless local area network path and/or a wired local area network path;

Or if the image information characterizes that the current use object is not the preset use object, determining that the electronic equipment is currently used by the non-preset use object, and controlling the electronic equipment to be connected to the second path; and enabling the electronic equipment to successfully access the target object to be accessed by the current use object through the second path, wherein the second path characterizes a mobile internet path.

6. The method of claim 1, further comprising, in the case where the preset condition includes the transmission of data with preset parameters:

if the data capacity parameter of the target data to be transmitted currently by the electronic equipment is smaller than or equal to the preset data capacity parameter, determining that the electronic equipment transmits the data currently by the first preset parameter, and controlling the electronic equipment to be connected to the first path so that the electronic equipment successfully transmits the target data through the first path; the first path at least represents a wireless local area network path and/or a wired local area network path;

or if the data capacity parameter of the target data to be transmitted currently by the electronic device is larger than the preset data capacity parameter, determining that the electronic device transmits data with the first preset parameter currently, and controlling the electronic device to be connected to the second path so that the electronic device successfully transmits the target data through the second path, wherein the second path represents a mobile internet path;

Or if the data transmission speed of the target data to be transmitted currently by the electronic equipment is greater than or equal to the preset speed, determining that the electronic equipment transmits the data currently by using a second preset parameter, and controlling the electronic equipment to be connected to the first path so that the electronic equipment successfully transmits the target data through the first path; the first path at least represents a wireless local area network path and/or a wired local area network path;

or if the data transmission speed of the target data to be transmitted currently by the electronic equipment is smaller than the preset speed, determining that the electronic equipment transmits data currently with the second preset parameter, and controlling the electronic equipment to be connected to the second path so that the electronic equipment successfully transmits the target data through the second path; the second path characterizes a mobile internet path.

7. The method of claim 1, further comprising, in the case where the preset condition includes the preset outage duration:

if the network disconnection time of the electronic equipment connected to the first path does not exceed the preset network disconnection time, controlling the electronic equipment to be connected to the first path so that the electronic equipment successfully accesses a target object through the first path, wherein the first path at least represents a wireless local area network path and/or a wired local area network path;

Or if the network disconnection time of the electronic equipment connected to the first path exceeds the preset network disconnection time, controlling the electronic equipment to be connected to the second path so that the electronic equipment successfully accesses the target object through the second path, wherein the second path at least characterizes a mobile internet path.

8. The method of claim 1, further comprising, in the case where the preset condition includes the preset network performance parameter:

determining the times that the current network performance parameter of the electronic equipment is smaller than the preset network performance parameter in a preset time length;

if the number of times is smaller than a preset number of times, determining that the current network performance of the electronic equipment is excellent, and controlling the electronic equipment to be connected to a first sub-path in the first path so that the electronic equipment successfully accesses a target object through the first sub-path, wherein the first sub-path at least represents a wireless local area network path;

or if the number of times is greater than the preset number of times, determining that the current network performance of the electronic equipment is poor, and controlling the electronic equipment to be connected to a second communication path or to be connected to a second sub-path in the first path through a network cable so that the electronic equipment can successfully access the target object through the second communication path or the second sub-path, wherein the second communication path at least represents a mobile internet path, and the second sub-path at least represents a wired local area network path.

9. An electronic device, comprising:

the control unit is used for responding to the fact that the electronic equipment meets a preset condition, controlling the electronic equipment to be connected to a first path, and enabling the first path to represent a path which can enter a target state under the preset condition after the electronic equipment enters the first path;

wherein, the preset conditions include: accessing a preset object, using the preset object, transmitting data with preset parameters, presetting network performance parameters, presetting equipment model, presetting network disconnection time and presetting electric energy parameters;

if the preset condition includes the preset equipment model, the control unit is further configured to control the electronic equipment to connect to the first path if the equipment model of the electronic equipment is the preset equipment model, so that the electronic equipment successfully accesses the target object through the first path, where the first path at least characterizes a wireless local area network path and/or a wired local area network path; or if the equipment model of the electronic equipment is not the preset equipment model, the control unit is further used for controlling the electronic equipment to be connected to a second path so that the electronic equipment can successfully access the target object through the second path, and the second path at least represents a mobile internet path.