CN113473429A

CN113473429A - Network connection method, device, medium, program product and Wi-Fi headset

Info

Publication number: CN113473429A
Application number: CN202110726567.7A
Authority: CN
Inventors: 柳春阳
Original assignee: Beijing Ziguang Zhanrui Communication Technology Co Ltd
Current assignee: Beijing Ziguang Zhanrui Communication Technology Co Ltd
Priority date: 2021-06-29
Filing date: 2021-06-29
Publication date: 2021-10-01

Abstract

The application provides a network connection method, a network connection device, a network connection medium, a program product and a Wi-Fi earphone. The network connection method is applied to the Wi-Fi headset and comprises the following steps: detecting whether a user enables the Wi-Fi headset; and in response to the fact that a user enables the Wi-Fi earphone and the Wi-Fi earphone is located in the coverage range of a wireless network in which connection parameters are stored in advance, establishing Wi-Fi connection with wireless routing equipment providing the wireless network by using the connection parameters. The method and the device can improve the intelligent degree of the Wi-Fi earphone connection network.

Description

Network connection method, device, medium, program product and Wi-Fi headset

Technical Field

The present application relates to the field of communications technologies, and in particular, to a network connection method, apparatus, medium, program product, and Wi-Fi headset.

Background

A Wireless Fidelity (Wi-Fi) headset is a headset that can be directly connected to a Wireless network. The Wi-Fi headset can directly acquire data from the server through a wireless network, so that services such as audio playing and the like are provided for a user.

The network connection method of the existing Wi-Fi earphone comprises the following steps: firstly, wireless network configuration is carried out for the first time, so that the connection parameters of the wireless network are stored in the Wi-Fi earphone, the Wi-Fi earphone detects whether the wireless network is in the coverage range of the wireless network in which the connection parameters are stored in advance during each wireless network connection, and if the wireless network is in the coverage range, the wireless network connection is carried out and the wireless network connection state is maintained.

However, the existing network connection method of the Wi-Fi headset has low intelligent degree.

Disclosure of Invention

The application provides a network connection method, a network connection device, a network connection medium, a program product and a Wi-Fi earphone, which are used for solving the problem of low intelligent degree of the existing network connection method of the Wi-Fi earphone.

In a first aspect, the present application provides a network connection method, which is applied to a Wi-Fi headset, and includes:

detecting whether a user enables the Wi-Fi headset;

and in response to the fact that a user enables the Wi-Fi earphone and the Wi-Fi earphone is located in the coverage range of a wireless network in which connection parameters are stored in advance, establishing Wi-Fi connection with wireless routing equipment providing the wireless network by using the connection parameters.

Optionally, the detecting whether the Wi-Fi headset is enabled by the user includes:

and determining whether the Wi-Fi earphone is started by a user or not according to whether the human body biological characteristics are detected or not.

Optionally, the human biometric characteristic comprises a human body temperature; the determining whether a user enables the Wi-Fi headset according to whether human body biological characteristics are detected comprises the following steps:

detecting the temperature of the environment where the Wi-Fi earphone is located;

and determining whether a user enables the Wi-Fi earphone or not according to the temperature of the environment where the Wi-Fi earphone is located.

Optionally, the determining whether the Wi-Fi headset is enabled by the user according to the temperature of the environment where the Wi-Fi headset is located includes:

if the temperature of the environment where the Wi-Fi earphone is located is within the preset temperature range of the human ear canal, determining that a user starts the Wi-Fi earphone; or,

and if the temperature of the environment where the Wi-Fi earphone is located is not within the preset temperature range of the human ear canal, determining that the Wi-Fi earphone is not started by a user.

Optionally, if the temperature of the environment where the Wi-Fi headset is located is within a preset temperature range of an ear canal of a human body, it is determined that a user enables the Wi-Fi headset, including:

detecting the humidity of the environment where the Wi-Fi earphone is located;

and if the temperature of the environment where the Wi-Fi earphone is located is within the preset human auditory canal temperature range and the humidity is within the preset human auditory canal humidity range, determining that a user starts the Wi-Fi earphone.

Optionally, the biometric characteristic of the person comprises a fingerprint; the determining whether a user enables the Wi-Fi headset according to whether human body biological characteristics are detected comprises the following steps:

identifying whether a fingerprint stored in advance exists in a fingerprint identification area of the Wi-Fi earphone;

determining whether a user enables the Wi-Fi headset according to whether a pre-stored fingerprint is identified.

and determining whether the Wi-Fi earphone is started by the user according to whether a starting signal triggered by the physical key of the Wi-Fi earphone by the user is received.

Optionally, if the Wi-Fi headset is located in a coverage area of a plurality of wireless networks in which connection parameters are stored in advance, establishing a Wi-Fi connection with a wireless routing device providing the wireless network by using the connection parameters includes:

detecting signal strengths of a plurality of wireless networks;

determining a target wireless network from the plurality of wireless networks according to the signal strengths of the plurality of wireless networks;

and establishing Wi-Fi connection with the wireless routing equipment providing the target wireless network by using the connection parameters of the target wireless network.

Optionally, after establishing a Wi-Fi connection with a wireless routing device providing the wireless network by using the connection parameter, the method further includes:

and connecting to a network through the wireless routing equipment to provide network service for the user.

detecting whether the user deactivates the Wi-Fi headset;

in response to detecting whether the user deactivates the Wi-Fi headset, disconnecting a Wi-Fi connection from the wireless routing device.

In a second aspect, the present application provides a network connection device, the device being applied to a Wi-Fi headset, the device comprising:

a detection module for detecting whether a user enables the Wi-Fi headset;

and the connection module is used for establishing Wi-Fi connection with wireless routing equipment providing the wireless network by using the connection parameters in response to the fact that a user starts the Wi-Fi earphone and the Wi-Fi earphone is located in the coverage range of the wireless network in which the connection parameters are stored in advance.

In a third aspect, the present application provides a Wi-Fi headset, comprising: at least one processor, memory, and a wireless communication module;

the memory stores computer-executable instructions;

the at least one processor executing the computer-executable instructions stored by the memory causes the Wi-Fi headset to perform the method of any one of the first aspects;

the at least one processor enables Wi-Fi connectivity through the wireless communication module.

In a fourth aspect, the present application provides a computer-readable storage medium having stored thereon computer-executable instructions for implementing the method of any one of the first aspect when executed by a processor.

In a fifth aspect, the present application provides a computer program product comprising a computer program that, when executed by a processor, implements the method of any of the first aspects.

According to the network connection method, the network connection device, the network connection medium, the program product and the Wi-Fi earphone, whether the Wi-Fi earphone needs to be started or stopped by a user can be judged by detecting the starting information of the human body biological characteristics and/or the physical keys, so that the Wi-Fi earphone can automatically carry out connection or disconnection operation of a wireless network according to the use condition of the user, the intelligent degree of the Wi-Fi earphone in connection with the wireless network is further improved, and the user experience is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Fig. 1 is a diagram illustrating a structure of a Wi-Fi headset according to an embodiment of the present disclosure;

fig. 2 is a schematic diagram of a terminal interface in an application scenario provided in an embodiment of the present application;

fig. 3 is a schematic diagram of a terminal interface in another application scenario provided in the embodiment of the present application;

fig. 4 is a schematic terminal interface diagram in another application scenario provided in the embodiment of the present application;

fig. 5 is a schematic diagram of a communication system architecture to which the network connection method provided in the embodiment of the present application is applied;

fig. 6 is a schematic diagram of another communication system architecture to which the network connection method provided in the embodiment of the present application is applied;

fig. 7 is a flowchart illustrating a network connection method according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of a network connection device according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a Wi-Fi headset according to an embodiment of the present application.

With the above figures, there are shown specific embodiments of the present application, which will be described in more detail below. These drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the inventive concepts to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

The terms referred to in this application are explained first:

Wi-Fi headphones: the earphone is provided with a Wi-Fi chip, can establish Wi-Fi connection with wireless routing equipment, and can directly acquire network data.

The Wi-Fi headset to which the application relates can be a Wi-Fi headset that includes at least one headset and a headset charging chamber, or a Wi-Fi headset that includes at least one headset but does not include a headset charging chamber. When the Wi-Fi headset includes two headsets, there may or may not be an electrical connection between the first headset and the second headset. Further, the Wi-Fi headset to which the present application relates may be either an in-ear headset or a headset. The specific structure of the Wi-Fi earphone is not limited, and the network connection method provided by the application can be applied to the Wi-Fi earphone which can establish Wi-Fi connection with wireless routing equipment and directly acquire network data. The Wi-Fi headset in the embodiments described below is illustrated by way of example as the Wi-Fi headset shown in fig. 1. Referring to fig. 1, the Wi-Fi headset is an in-ear headset including a first headset, a second headset, and a headset charging chamber, and there is no electrical connection between the first headset and the second headset.

The wireless routing device: the device has an Access Point (AP) mode, and can provide wireless network gateway service for the Wi-Fi earphone after establishing connection with the Wi-Fi earphone.

The wireless routing device referred to in this application may be, for example, a router, a terminal or other devices having a wireless AP mode, which is not limited in this application. Illustratively, when the wireless routing device is a router and the Wi-Fi headset and the terminal are both connected to the router, the terminal and the Wi-Fi headset both access the network through the router, and at this time, the terminal and the Wi-Fi headset may both upload and/or download data from the application server, that is, the terminal and the Wi-Fi headset may implement data transfer through the application server. The application server may be, for example, a server with authority to manage Wi-Fi headsets, and/or a server that provides interaction with other devices on the network for Wi-Fi headsets, and/or a server that provides audio data for Wi-Fi headsets, etc.

The terminal referred to herein may also be referred to as a terminal device, a User Equipment (UE), a Mobile Station (MS), a Mobile Terminal (MT), and the like, and may be, for example, a mobile phone (mobile phone), a tablet computer (pad), or a computer with a wireless transceiving function.

For convenience of understanding, the following describes a process of first performing wireless network configuration on a wireless routing device and a Wi-Fi headset by taking a terminal as a mobile phone and a wireless routing device as a router as examples.

Illustratively, the terminal may establish a wireless network connection therewith using connection parameters of the wireless routing device. The connection parameter refers to information such as identification information of the wireless network (for example, a user name of the wireless network) that can be provided by the wireless routing device, and an access password required to access the wireless network. Of course, if the wireless network that the wireless routing device can provide can be accessed without a password, the connection parameter may not include an access password. For how the terminal establishes the wireless connection with the wireless routing device by using the connection parameters of the wireless routing device, reference may be made to the prior art, and details thereof are not described herein.

After the terminal successfully establishes the wireless network connection with the wireless routing device, for example, an Application program (APP) of "Wi-Fi headset management" is selected from an Application selection interface of the terminal, and may enter a management interface of a Wi-Fi headset, where the management interface of the Wi-Fi headset is shown in fig. 2. Referring to fig. 2, selecting "add Wi-Fi headset" in a management interface of a Wi-Fi headset of a terminal, and entering an interface for selecting the Wi-Fi headset to configure, where the interface for selecting the Wi-Fi headset to configure is shown in fig. 3. Referring to fig. 3, the user may select a Wi-Fi headset (e.g., Wi-Fi headset-1) in the interface, which needs to be configured for a wireless network, and send connection parameters of a wireless network to which the terminal is currently connected to the Wi-Fi headset.

Illustratively, the terminal may transmit connection parameters of a wireless network to which the terminal is currently connected to the Wi-Fi headset using a short-range wireless Communication technology, for example, using Bluetooth (Bluetooth), ZigBee (ZigBee), Near Field Communication (NFC), or the like. For example, when the Wi-Fi headset and the terminal are both provided with the NFC module, the terminal may establish a connection with the Wi-Fi headset through NFC.

For example, after the terminal successfully sends the connection parameters of the currently connected wireless network to the Wi-Fi headset, the Wi-Fi headset may perform wireless network connection with the wireless routing device by using the connection parameters. The terminal interface after the Wi-Fi headset successfully accesses the wireless network is shown in fig. 4. Referring to fig. 4, the interface may display information such as power of the Wi-Fi headset, in addition to the wireless network connection status of the Wi-Fi headset.

For example, after the Wi-Fi headset completes the first wireless network configuration of the wireless network, the Wi-Fi headset may store the connection parameters of the wireless network, and then each time the Wi-Fi headset connects to the wireless network, the wireless network configuration operation is not required.

Through observing user behavior, the method finds that: the user does not always start using the Wi-Fi headset when the Wi-Fi headset is successfully connected to the wireless network, nor does the user stop using the Wi-Fi headset when the Wi-Fi headset is disconnected from the wireless network.

Therefore, the application provides a network connection method. According to the method, the Wi-Fi earphone can be automatically connected with the wireless network when the user starts to use the Wi-Fi earphone, and the Wi-Fi earphone is timely disconnected from the wireless network when the user stops using the Wi-Fi earphone, so that the intelligent degree of the Wi-Fi earphone connected with the network is improved.

The network connection method provided by the present application can be applied to a communication system architecture as shown in fig. 5. As shown in fig. 5, the communication system architecture includes: Wi-Fi headsets and wireless routing devices. The Wi-Fi earphone can establish wireless network connection with the wireless routing equipment and acquire a network.

In the communication system architecture shown in fig. 5, after the Wi-Fi headset establishes a wireless network connection with the wireless routing device, the wireless routing device may perform data transfer with the Wi-Fi headset through the application server. The user may operate the wireless routing device to obtain network services from the Wi-Fi headset. For example, a user may click a music track to be played on the wireless routing device, the wireless routing device may send track information (for example, a name of the music track) of the music track to the Wi-Fi headset through the application server, and the Wi-Fi headset may directly search and download audio data of the music track from the network according to the track information and play the audio data. Or, the wireless routing device may also search and download the audio data of the music track from the network, and then directly send the audio data to the Wi-Fi headset through the application server, where the Wi-Fi headset may directly play the audio data according to the received audio data.

The network connection method provided by the present application can also be applied to a communication system architecture as shown in fig. 6. As shown in fig. 6, the communication system architecture includes: Wi-Fi earphone, wireless routing equipment and terminal. The Wi-Fi earphone and the terminal can be connected with the wireless routing device and acquire a wireless network.

In the communication system architecture shown in fig. 6, after both the Wi-Fi headset and the terminal establish a connection with the wireless routing device, the terminal may transfer data to the Wi-Fi headset through the application server. For example, a user may click a music track to be played on the terminal, and the terminal may send track information or audio data of the music track to the Wi-Fi headset through the application server. The Wi-Fi earphone can play music according to the acquired song information or audio data.

The following describes the technical solutions of the present application and how to solve the above technical problems with specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

It should be understood that the network connection method described in the following embodiments is described by taking the Wi-Fi headset as an example, which has already completed the first wireless network configuration (i.e., the Wi-Fi headset stores the connection parameters of the wireless network in advance).

Fig. 7 is a flowchart illustrating a network connection method according to an embodiment of the present application. The execution subject of the method of the present application may be a Wi-Fi headset or a component (e.g., a chip including a processor and a memory) having a processing function in the Wi-Fi headset. The following embodiments exemplify Wi-Fi headphones as the execution subject. As shown in fig. 7, the method of the present application may include:

s101, detecting whether a user enables a Wi-Fi earphone.

As one possible implementation, the Wi-Fi headset may determine whether the user enables the Wi-Fi headset based on whether the human biometric is detected.

In this implementation, for example, a component capable of detecting temperature, such as a temperature sensor, an infrared thermometer, an infrared thermal imager, etc., may be disposed on the Wi-Fi headset to detect whether the Wi-Fi headset is enabled by a user.

For example, when the Wi-Fi headset is only provided with the temperature sensor, the Wi-Fi headset may detect the temperature of the environment where the Wi-Fi headset is located, and determine whether the temperature is within a preset temperature range of the ear canal of the human body.

If the temperature of the environment where the Wi-Fi earphone is located is within the preset temperature range of the human ear canal, determining that a user starts the Wi-Fi earphone; or if the temperature of the environment where the Wi-Fi earphone is located is not within the preset temperature range of the human ear canal, determining that the Wi-Fi earphone is not started by the user.

The preset human ear canal temperature range may be a range from a minimum value to a maximum value, which are obtained based on statistics, where the human ear canal temperature may occur. In this case, the preset human ear canal temperature range may be pre-entered for the Wi-Fi headset without user involvement in the setup.

Alternatively, the preset human ear canal temperature range may be determined according to the ear canal temperature data of different users. For example, the Wi-Fi headset may record a plurality of sample ear canal temperature data of the user in different states (e.g., sleeping, moving, etc.), and then determine the minimum value and the maximum value of the ear canal temperature data of the user, thereby determining the preset human ear canal temperature range matching the user.

As another possible implementation, the Wi-Fi headset can determine whether the Wi-Fi headset is enabled by the user according to whether an enabling signal triggered by the user through a physical key is received or not.

For example, the Wi-Fi headset may use a signal such as the number of times the user continuously presses the physical key, the duration of pressing the physical key, and the like as an enabling signal, and thus determine whether the Wi-Fi headset is enabled by the user. The enabling signal can be pre-configured by the Wi-Fi headset and set without participation of a user, and can also be set by the user in a self-defining mode.

For example, the user may first make the following custom settings: and continuously pressing the physical key for 3 seconds, and carrying out wireless network connection action on the Wi-Fi earphone.

S102, in response to the fact that the user enables the Wi-Fi earphone and the Wi-Fi earphone is located in the coverage range of the wireless network stored with the connection parameters in advance, establishing Wi-Fi connection with wireless routing equipment providing the wireless network by using the connection parameters.

The connection parameter refers to identification information of the wireless network (e.g., a user name of the wireless network) and an access password of the wireless network. It should be understood that when the wireless network is accessible without a password, the connection parameters may not include an access password.

For example, after the Wi-Fi headset is successfully connected to the wireless network, data can be directly acquired from the network, and network services meeting the user requirements can be provided for the user.

For example, after the terminal and the Wi-Fi headset are both connected to the same wireless routing device via a wireless network, a user may select a music track to be played in the Wi-Fi headset at the terminal, the terminal may send related information (e.g., a music track name) of the music track to the Wi-Fi headset via the application server, and the Wi-Fi headset may directly search and download audio data of the music track from the network according to the received information and play the audio data.

Or, the Wi-Fi earphone can also continuously detect the human body biological characteristics of the user after being connected with the wireless network and pass the detected human body biological characteristic data to the terminal. For example, after the Wi-Fi headset is connected to the wireless network, the Wi-Fi headset continues to monitor the temperature of the human ear canal of the user and sends the temperature data to the terminal through the application server.

According to the network connection method, whether the user needs to start the Wi-Fi earphone or not can be judged by detecting the starting information of the human body biological features and/or the physical keys, so that the Wi-Fi earphone can automatically connect with the wireless network according to the use condition of the user, the intelligent degree of the Wi-Fi earphone connecting with the wireless network is further improved, and the user experience is improved.

Based on the above embodiment, for example, if the Wi-Fi headset is located in the coverage of a plurality of wireless networks in which connection parameters are stored in advance, the Wi-Fi headset may detect signal strengths of the plurality of wireless networks, and determine a target wireless network from the plurality of wireless networks according to the signal strengths of the plurality of wireless networks. For example, the Wi-Fi headset may select a wireless network of the plurality of wireless networks with the strongest signal strength as the target wireless network. The Wi-Fi headset may then establish a Wi-Fi connection with a wireless routing device providing the target wireless network using the connection parameters of the target wireless network.

It should be understood that the above-mentioned action of determining the target wireless network from a plurality of wireless networks may be performed by the headset charging bin, or may be performed by a headset with a higher priority. The priority may be set by a user in a self-defined manner, or may be determined after the first earphone and the second earphone negotiate.

Taking the above-mentioned action of determining the target wireless network from the plurality of wireless networks as an example, the headset charging bin may select the wireless network with the strongest signal strength from the plurality of wireless networks as the target wireless network, and send the identification information of the target wireless network (for example, the user name of the target wireless network) to the first headset and the second headset. After the first earphone and the second earphone receive the identification information of the target wireless network, wireless network connection can be respectively established with the target wireless network by using the connection parameters of the target wireless network.

Further, in step S101 of the above embodiment, the step of determining whether the Wi-Fi headset is enabled by the user according to whether the human body biometric feature is detected may also be implemented as follows.

Other biometric detection components, such as a humidity sensor, a voice recognition component, a fingerprint recognition area, etc., may also be provided on the Wi-Fi headset, for example, to detect whether the Wi-Fi headset is enabled by a user. Or at least two biological characteristic detection components can be arranged on the Wi-Fi earphone in a combined mode, so that the accuracy of detection results of whether a user enables the Wi-Fi earphone is improved. The following examples set forth several possible implementations for ease of understanding.

Case 1: when the Wi-Fi earphone is provided with the temperature sensor and the humidity sensor at the same time, the Wi-Fi earphone can detect the temperature data and the humidity data of the environment where the Wi-Fi earphone is located, and therefore whether a user starts the Wi-Fi earphone or not is judged.

For example, if the temperature of the environment where the Wi-Fi headset is located is within a preset human ear canal temperature range and the humidity is within a preset human ear canal humidity range, it is determined that the Wi-Fi headset is enabled by the user. And if the temperature of the environment where the Wi-Fi earphone is located is not within the preset temperature range of the human ear canal or the humidity is not within the preset humidity range of the human ear canal, determining that the Wi-Fi earphone is not started by the user.

The setting mode of the preset human ear canal humidity range can be referred to as the setting mode of the preset human ear canal temperature range, and is not described herein again.

Case 2: when the Wi-Fi earphone is provided with the voice recognition component, the voice recognition component can collect voice control instructions of a user and judge whether the Wi-Fi earphone is started by the user or not.

For example, the user may pre-enter voice control instructions for controlling the Wi-Fi headset connection, which may be user-defined, e.g., selecting the word "network connection" four indicates that the user needs the Wi-Fi headset to connect to the wireless network. After the entry is completed, the Wi-Fi earphone can make an action of connecting a wireless network after recognizing a voice control instruction of a user.

Case 3: when the Wi-Fi earphone can be provided with the fingerprint identification area, whether a user starts the Wi-Fi earphone or not can be judged by detecting whether the fingerprint identification area has a pre-stored fingerprint or not.

Illustratively, when a Wi-Fi headset recognizes that the fingerprint identification area has a pre-stored fingerprint, it may determine that a user enables the Wi-Fi headset; when the Wi-Fi headset does not recognize that the fingerprint identification area has a pre-stored fingerprint, it may determine that the Wi-Fi headset is not enabled by the user.

Wherein the pre-stored fingerprint requires the user to enter the Wi-Fi headset in advance, and the user can enter at least one fingerprint in the Wi-Fi headset. How the user enters the fingerprint can be referred to in the prior art, and details are not repeated here.

It should be understood that the above embodiments are exemplified by using one or more of a temperature sensor, a humidity sensor, a voice recognition component, and a fingerprint recognition area as the human body biometric detection component, and any one or more of other human body biometric detection components capable of detecting whether a user enables a Wi-Fi headset may also be applicable to the network connection method provided by the present application, which is not limited by the present application.

Illustratively, the Wi-Fi headset, after establishing a Wi-Fi connection with a wireless routing device providing the wireless network using the connection parameters, may also detect whether the user deactivated the Wi-Fi headset and disconnect the Wi-Fi connection from the wireless routing device upon detecting that the user deactivated the Wi-Fi headset.

As one possible implementation, the Wi-Fi headset may determine whether the user deactivates the Wi-Fi headset based on whether a human biometric is detected.

In this implementation, one or more human biometric detection components among a temperature sensor, a humidity sensor, and a voice recognition component may be disposed on the Wi-Fi headset and configured to detect whether the Wi-Fi headset is deactivated by the user. The following examples set forth several possible implementations for ease of understanding.

Case 1: when the Wi-Fi earphone is only provided with the temperature sensor, the Wi-Fi earphone can detect the temperature of the environment where the Wi-Fi earphone is located, and judge whether the temperature is within the temperature range of the ear canal of the preset human body.

If the temperature of the environment where the Wi-Fi earphone is located is within the preset temperature range of the human ear canal, determining that the user still uses the Wi-Fi earphone; or if the temperature of the environment where the Wi-Fi earphone is located is not within the preset temperature range of the human ear canal, determining that the user stops using the Wi-Fi earphone.

For the determination of the preset human ear canal temperature range, reference may be made to the above embodiments, which are not described herein again.

Case 2: when the Wi-Fi earphone is provided with the temperature sensor and the humidity sensor at the same time, the Wi-Fi earphone can detect the temperature data and the humidity data of the environment where the Wi-Fi earphone is located, and therefore whether a user deactivates the Wi-Fi earphone or not is judged.

For example, if the temperature of the environment where the Wi-Fi headset is located is within the preset temperature range of the human ear canal and the humidity is within the preset humidity range of the human ear canal, it is determined that the user is still using the Wi-Fi headset. And if the temperature of the environment where the Wi-Fi earphone is located is not within the preset temperature range of the human auditory canal or the humidity is not within the preset humidity range of the human auditory canal, determining that the user stops using the Wi-Fi earphone.

Case 3: when the Wi-Fi earphone is provided with the voice recognition component, the voice recognition component can collect voice control instructions of a user and judge whether the user deactivates the Wi-Fi earphone or not.

For example, the user may pre-enter a voice control instruction for controlling the Wi-Fi headset to disconnect the wireless network, and the voice control instruction may be user-defined, for example, selecting the word "disconnect" to indicate that the Wi-Fi headset is required to disconnect the wireless network. After the entry is completed, the Wi-Fi earphone can perform an action of disconnecting the wireless network after recognizing the voice control instruction of the user.

As another possible implementation, the Wi-Fi headset can determine whether the user deactivates the Wi-Fi headset according to whether a deactivation signal triggered by the user through a physical key is received.

For how the physical key implements the sending of the disabling signal, reference may be made to the above-mentioned embodiment that implements the sending of the enabling signal by the physical key, and details are not described herein again.

According to the network connection method provided by the embodiment of the application, whether the user needs to start or stop the Wi-Fi earphone can be judged by detecting the starting information of the human body biological characteristics and/or the physical keys, so that the wireless network connection or disconnection operation of the Wi-Fi earphone is automatically carried out according to the judgment result, the situation that the Wi-Fi earphone is in the wireless network connection state and the user does not start the Wi-Fi earphone is further reduced, and the electric quantity consumption of the Wi-Fi earphone is reduced.

Fig. 8 is a schematic structural diagram of a network connection device according to an embodiment of the present application. As shown in fig. 8, the apparatus includes: detection module 21, connection module 22. Optionally, the apparatus may further include, for example: a service module 23. Wherein:

a detection module 21, configured to detect whether a user enables a Wi-Fi headset;

the connection module 22 is configured to, in response to detecting that a user enables the Wi-Fi headset and that the Wi-Fi headset is located within a coverage area of a wireless network in which connection parameters are stored in advance, establish a Wi-Fi connection with a wireless routing device providing the wireless network by using the connection parameters.

Optionally, the detection module 21 is specifically configured to determine whether a user enables the Wi-Fi headset according to whether human body biological features are detected.

For example, the detection module 21 is specifically configured to detect a temperature of an environment where the Wi-Fi headset is located; and determining whether the Wi-Fi earphone is started by a user or not according to the temperature of the environment where the Wi-Fi earphone is located.

Illustratively, the detection module 21 is specifically configured to determine that a user enables the Wi-Fi earphone when the temperature of the environment where the Wi-Fi earphone is located is within a preset temperature range of an ear canal of a human body; or when the temperature of the environment where the Wi-Fi earphone is located is not within the preset temperature range of the human ear canal, determining that the Wi-Fi earphone is not started by the user.

Illustratively, the detection module 21 is specifically configured to detect humidity of an environment in which the Wi-Fi headset is located; when the temperature of the environment where the Wi-Fi earphone is located is within the preset temperature range of the human auditory canal and the humidity is within the preset humidity range of the human auditory canal, a user is determined to start the Wi-Fi earphone.

For example, the detection module 21 is specifically configured to identify whether there is a pre-stored fingerprint in a fingerprint identification area of the Wi-Fi headset; determining whether a user enables the Wi-Fi headset according to whether a pre-stored fingerprint is identified.

For example, the detection module 21 is specifically configured to determine whether a user enables the Wi-Fi headset according to whether an enabling signal triggered by the physical key of the Wi-Fi headset is received.

Optionally, if the Wi-Fi headset is located in a coverage area of a plurality of wireless networks in which connection parameters are stored in advance, the connection module 22 is specifically configured to detect signal strengths of the plurality of wireless networks; determining a target wireless network from the plurality of wireless networks according to the signal strength of the plurality of wireless networks; and establishing the Wi-Fi connection with the wireless routing equipment providing the target wireless network by using the connection parameters of the target wireless network.

Optionally, the service module 23 is configured to connect to the network through the wireless routing device after the connection module 22 establishes a Wi-Fi connection with the wireless routing device providing the wireless network by using the connection parameter, so as to provide a network service for the user.

Optionally, the detecting module 21 is further configured to detect whether the user deactivates the Wi-Fi headset after the connecting module 22 establishes a Wi-Fi connection with a wireless routing device providing a wireless network by using the connection parameter; the connection module 22 is further configured to disconnect the Wi-Fi connection from the wireless routing device in response to detecting that the user deactivated the Wi-Fi headset.

The network connection device provided by the present application is used for implementing the foregoing network connection method embodiments, and the implementation principle and the technical effect are similar, which are not described herein again. The network connection device may be, for example, a Wi-Fi headset as described above, or a component (e.g., a chip including a processor and memory) having processing functionality in a Wi-Fi headset.

Fig. 9 is a schematic structural diagram of a Wi-Fi headset according to an embodiment of the present application. As shown in fig. 9, the Wi-Fi headset 400 may include: at least one processor 401, memory 402, and a wireless communication module 403.

A memory 402 for storing programs. In particular, the program may include program code including computer operating instructions.

The Memory 402 may include a Random Access Memory (RAM) and may also include a non-volatile Memory (non-volatile Memory), such as at least one disk Memory.

The processor 401 is configured to execute computer-executable instructions stored in the memory 402 to implement the image recognition model training method and/or the carrier adjustment method described in the foregoing method embodiments. The processor 401 may be a Central Processing Unit (CPU), an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits configured to implement the embodiments of the present Application.

Processor 401 enables Wi-Fi connectivity through wireless communication module 403. In a specific implementation, if the wireless communication module 403, the memory 402 and the processor 401 are implemented independently, the wireless communication module 403, the memory 402 and the processor 401 may be connected to each other through a bus and perform communication with each other. The bus may be an Industry Standard Architecture (ISA) bus, a Peripheral Component Interconnect (PCI) bus, an Extended ISA (EISA) bus, or the like. Buses may be classified as address buses, data buses, control buses, etc., but do not represent only one bus or type of bus.

Alternatively, in a specific implementation, if the wireless communication module 403, the memory 402 and the processor 401 are integrated into a chip, the wireless communication module 403, the memory 402 and the processor 401 may complete communication through an internal interface.

Optionally, the Wi-Fi headset 400 may further include: the system comprises a human body biological characteristic detection module 404, a physical key 405, a charging management module 406, a power management module 407, a Universal Serial Bus (USB) interface 408, a battery 409, an antenna 1, an antenna 2, an audio module 410, a speaker 411, a receiver 412, a microphone 413 and the like. It is to be understood that the illustrated structure of the present embodiment does not constitute a specific limitation to the Wi-Fi headset 400. In other embodiments of the present application, Wi-Fi headset 400 may include more or fewer components than shown, or some components may be combined, some components may be split, or a different arrangement of components. The illustrated components may be implemented in hardware, software, or a combination of software and hardware.

A human biometric detection module 404 and physical buttons 405 for providing detection data to cause the processor 401 to determine whether the Wi-Fi headset is enabled by the user and whether the Wi-Fi headset is disabled by the user based on the detection data. Illustratively, the human biometric detection module 404 may specifically be determined according to a detection mode required to be implemented by the human biometric detection module. For example, when the human biometric detection module 404 needs to provide temperature data, the human biometric detection module 404 may include a temperature sensor, for example. When the human biometric detection module 404 needs to provide temperature data and humidity data, the human biometric detection module 404 may include a temperature sensor and a humidity sensor, for example, which are not listed.

The charge management module 406 is configured to receive a charging input from a charger. The charger may be a wireless charger or a wired charger. In some wired charging embodiments, the charging management module 406 may receive charging input from a wired charger via the USB interface 408. In some wireless charging embodiments, the charging management module 406 may receive wireless charging input through a wireless charging coil of the Wi-Fi headset 400. The Wi-Fi headset 400 may be powered by the charging management module 406 while the battery 409 is being charged.

The power management module 407 is used to connect the battery 409, the charging management module 406 and the processor 401. The power management module 407 receives input from the battery 409 and/or the charging management module 406 to power the processor 401, the wireless communication module 403, and the like. The power management module 407 may also be used to monitor parameters such as battery capacity, battery cycle number, battery state of health (leakage, impedance), etc. In some other embodiments, the power management module 407 may also be disposed in the processor 401. In other embodiments, the power management module 407 and the charging management module 406 may be disposed in the same device.

The antennas 1 and 2 are used for transmitting and receiving electromagnetic wave signals. Each antenna in the Wi-Fi headset 400 may be used to cover a single or multiple communication bands. Different antennas can also be multiplexed to improve the utilization of the antennas. For example: the antenna 1 may be multiplexed as a diversity antenna of a wireless local area network. In other embodiments, the antenna may be used in conjunction with a tuning switch.

Wi-Fi headset 400 may implement audio functionality via audio module 410, speaker 411, microphone 412, microphone 413, and application processor, among other things. Such as music playing, recording, etc. The audio module 410 is used for converting digital audio information into analog audio signals and outputting the analog audio signals, and is also used for converting analog audio inputs into digital audio signals. The audio module 410 may also be used to encode and decode audio signals. In some embodiments, the audio module 410 may be disposed in the processor 110, or some functional modules of the audio module 410 may be disposed in the processor 110. The speaker 411, also called a "horn", is used to convert an audio electrical signal into a sound signal. The Wi-Fi headset 400 may listen to music through the speaker 411 or to a hands-free conversation. The receiver 412, also called "earpiece", is used to convert the electrical audio signal into an acoustic signal. When the Wi-Fi headset 400 receives a call or voice information, the voice can be received by placing the receiver 412 close to the ear of the person. The microphone 413, also called "microphone", is used to convert the sound signal into an electrical signal. When making a call or transmitting voice information, the user can input a voice signal to the microphone 413 by sounding a voice signal near the microphone 413 through the mouth of the user. The Wi-Fi headset 400 may be provided with at least one microphone 413. In other embodiments, the Wi-Fi headset 400 may be provided with two microphones 413 to enable noise reduction functionality in addition to collecting sound signals. In other embodiments, three, four or more microphones 413 may be further disposed on the Wi-Fi headset 400 to collect sound signals, reduce noise, identify sound sources, perform directional recording, and so on.

The present application also provides a computer-readable storage medium, which may include: various media that can store program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a RAM Memory, a magnetic disk, or an optical disk, and in particular, the computer-readable storage medium stores program instructions, and the program instructions are used for the method in the above-mentioned embodiments.

The present application also provides a program product comprising execution instructions stored in a readable storage medium. The at least one processor of the Wi-Fi headset may read the execution instructions from the readable storage medium, and the execution of the execution instructions by the at least one processor causes the Wi-Fi headset to implement the network connection method provided by the various embodiments described above.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims

1. A network connection method, the method being applied to a Wi-Fi headset, the method comprising:

detecting whether a user enables the Wi-Fi headset;

2. The method of claim 1, wherein the detecting whether the Wi-Fi headset is enabled by a user comprises:

3. The method of claim 2, wherein the human biometric characteristic comprises a human temperature; the determining whether a user enables the Wi-Fi headset according to whether human body biological characteristics are detected comprises the following steps:

4. The method of claim 3, wherein determining whether the Wi-Fi headset is enabled by a user based on a temperature of an environment in which the Wi-Fi headset is located comprises:

5. The method of claim 4, wherein determining that the Wi-Fi headset is enabled by a user if the temperature of the environment in which the Wi-Fi headset is located is within a preset human ear canal temperature range comprises:

detecting the humidity of the environment where the Wi-Fi earphone is located;

6. The method of claim 2, wherein the biometric characteristic of the human body comprises a fingerprint; the determining whether a user enables the Wi-Fi headset according to whether human body biological characteristics are detected comprises the following steps:

7. The method of claim 1, wherein the detecting whether the Wi-Fi headset is enabled by a user comprises:

8. The method according to any one of claims 1-7, wherein if the Wi-Fi headset is located within a coverage area of a plurality of wireless networks with connection parameters pre-stored therein, the establishing a Wi-Fi connection with a wireless routing device providing the wireless network using the connection parameters comprises:

detecting signal strengths of a plurality of wireless networks;

9. The method of any of claims 1-8, wherein after establishing a Wi-Fi connection with a wireless routing device providing the wireless network using the connection parameters, the method further comprises:

10. The method of any of claims 1-9, wherein after establishing a Wi-Fi connection with a wireless routing device providing the wireless network using the connection parameters, the method further comprises:

detecting whether the user deactivates the Wi-Fi headset;

in response to detecting that the user deactivated the Wi-Fi headset, disconnecting a Wi-Fi connection from the wireless routing device.

11. A network connection device, the device being applied to a Wi-Fi headset, the device comprising:

a detection module for detecting whether a user enables the Wi-Fi headset;

12. A Wi-Fi headset, comprising: at least one processor, memory, and a wireless communication module;

the memory stores computer-executable instructions;

the at least one processor executing the computer-executable instructions stored by the memory causes the Wi-Fi headset to perform the method of any of claims 1-10;

13. A computer-readable storage medium having computer-executable instructions stored thereon, which when executed by a processor, perform the method of any one of claims 1-10.

14. A computer program product, characterized in that it comprises a computer program which, when being executed by a processor, carries out the method of any one of claims 1-10.