CN116033599A

CN116033599A - Wireless communication method, device, electronic equipment and storage medium

Info

Publication number: CN116033599A
Application number: CN202211573820.0A
Authority: CN
Inventors: 冯霁; 张博
Original assignee: GBA National Institute for Nanotechnology Innovation
Current assignee: GBA National Institute for Nanotechnology Innovation
Priority date: 2022-12-08
Filing date: 2022-12-08
Publication date: 2023-04-28

Abstract

The application discloses a wireless communication method, a device, electronic equipment and a storage medium, wherein the method comprises the following steps: when the mobile terminal receives incoming signals, the charging bin receives incoming signals synchronized by the mobile terminal, and when the earphone which is kept connected with the charging bin is not in communication connection with the mobile terminal, a communication mode matched with the earphone state of the earphone is determined, and the incoming signals are transmitted to the earphone through the communication mode, so that a communication channel is established between the earphone and the electric party in the earphone state. Therefore, when the mobile terminal receives the incoming call signal and the earphone is not in communication connection with the mobile terminal, the electric signal can be synchronized to the charging bin, and the charging bin can rapidly transmit the electric signal to the earphone according to different states of the detected earphone, so that the earphone can rapidly acquire the incoming call information, a communication channel with an incoming party is established in advance, the earphone can receive communication parameters transmitted by the charging bin in advance, and accordingly, when the charging bin is connected with a call, the earphone can rapidly respond to the call.

Description

Wireless communication method, device, electronic equipment and storage medium

Technical Field

The present invention relates to the field of communications, and in particular, to a wireless communication method, device, electronic apparatus, and storage medium.

Background

With the continuous development of electronic devices, more and more electronic devices are highly integrated, such as communication devices from landline phones to mobile phones, and the body types of mobile phones are becoming lighter, so that people tend to be light-weight. Today, wireless telephony is the most widespread and dominant way of communicating between people, and people also prefer to implement wireless telephony via more portable and flexible devices.

At present, people commonly use a mobile phone to carry out wireless communication, and when the mobile phone is connected with an incoming call message, people can wear an earphone and can communicate with an incoming call party through the earphone. However, when a person puts through a call on a mobile phone, the earphone cannot quickly respond to the call, and there is a time delay, and the time delay may cause the caller to answer the call by no person, so that the call fails, and the success rate and the efficiency of the call are low.

Disclosure of Invention

In view of the foregoing, the present application has been proposed to provide a wireless communication method, apparatus, electronic device, and storage medium, so as to improve communication success rate and efficiency.

In order to achieve the above object, the following specific solutions are proposed:

a wireless telephony method comprising:

when a mobile terminal communicated with the charging bin receives an incoming signal, receiving an incoming signal synchronized by the mobile terminal;

when the earphone which is kept connected with the charging bin is not in communication connection with the mobile terminal, detecting the earphone state of the earphone, and determining a communication mode which is matched with the earphone state;

and transmitting the incoming call signal to the earphone in a communication mode matched with the earphone state, so that the earphone establishes a communication channel with an incoming call party sending the incoming call signal in the earphone state.

Optionally, the determining a communication mode matched with the earphone state includes:

and if the earphone state is the in-bin state of the earphone in the charging bin, determining that the communication mode matched with the in-bin state is a PIN in-bin communication mode.

Optionally, the incoming call signal is transferred to the earphone in a communication manner matched with the earphone state, so that the earphone establishes a call channel with an incoming call party sending the incoming call signal in the earphone state, and the method includes:

If the earphone state is the in-house state, the incoming call signal is transmitted to the earphone through the PIN in-house communication mode, so that the earphone can establish a call channel with an incoming call party sending the incoming call signal through the charging house in the in-house state.

Optionally, after the incoming call signal is transferred to the earphone through the PIN in-bin communication mode, the method further includes:

when the charging bin is in the uncapped state, the wired connection with the earphone is maintained, and the wireless connection with the earphone is established.

Optionally, the method further comprises:

if the state of the earphone is detected to be changed from the in-bin state to the out-of-bin state, the wired connection with the earphone is disconnected, the wireless connection with the earphone is kept, and the earphone is in wireless connection with the charging bin, and the charging bin receives the call message of the caller to carry out wireless call.

if the earphone state is the discharging state of the earphone outside the charging bin, determining that the communication mode matched with the discharging state is a BLE communication mode or an SPP communication mode.

if the earphone state is the out-of-bin state, the incoming call signal is transmitted to the earphone through the BLE communication mode or the SPP communication mode, so that the earphone passes through the charging bin in the out-of-bin state, and a call channel is established between the earphone and an incoming call party sending the incoming call signal.

if the earphone state is an in-ear state of the earphone outside the charging bin, determining that a communication mode matched with the in-ear state is a BLE communication mode or an SPP communication mode.

if the earphone state is the in-ear state, the incoming call signal is transmitted to the earphone through the BLE communication mode or the SPP communication mode, so that the earphone passes through the charging bin in the in-ear state, and a call channel is established between the earphone and an incoming call party sending the incoming call signal.

Optionally, the receiving the incoming call signal synchronized by the mobile terminal includes:

and acquiring an incoming call signal synchronized by the mobile terminal through preset software associated with the mobile terminal, wherein the received incoming call signal is sent to a target charging bin connected with the mobile terminal by searching the target charging bin by the mobile terminal through the preset software.

Optionally, the method further comprises:

and after confirming that the earphone and the caller sending the incoming call signal successfully establish a call channel, acquiring an instruction for switching on the incoming call signal.

Optionally, the acquiring the instruction for switching on the incoming call signal includes:

responding to the operation of a user for touch-control call connection in a display interface of the charging bin, and generating an instruction for connecting the call signal;

or alternatively, the first and second heat exchangers may be,

and acquiring an instruction sent by the earphone to switch on the incoming call signal.

Optionally, the method further comprises:

receiving an incoming call signal of an incoming call party through a pre-configured SIM card or an eSIM card;

and displaying the incoming call information corresponding to the incoming call signal.

A wireless communication method is applied to an earphone and comprises the following steps:

when a mobile terminal synchronously communicating with a charging bin receives an incoming call signal, determining a communication mode matched with the earphone state of the earphone, wherein the earphone state is detected by the charging bin which is kept connected with the earphone, and the earphone is not in communication connection with the mobile terminal;

Receiving the incoming call signal transmitted by the charging bin in a communication mode matched with the state of the earphone;

and in the state of the earphone, establishing a communication channel with an incoming call party sending the incoming call signal through the charging bin.

Optionally, the receiving the incoming call signal transferred by the charging bin through a communication mode matched with the earphone state includes:

if the state of the earphone is in-bin state of the earphone in the charging bin, and the mobile terminal is not connected with the earphone, determining that the communication mode matched with the state of the earphone is a PIN in-bin communication mode;

and receiving the incoming call signal transmitted by the charging bin through the PIN communication mode.

if the earphone state is the discharging state of the earphone outside the charging bin, and the mobile terminal is not connected with the earphone, determining that the communication mode matched with the earphone state is a wireless communication mode;

and receiving the incoming call signal transmitted by the charging bin in the wireless communication mode.

Optionally, the method further comprises:

and when the charging bin receives the incoming call signal, the incoming call signal transmitted by the charging bin in a communication mode matched with the earphone state of the earphone is received.

A wireless communication method is applied to a mobile terminal and comprises the following steps:

receiving incoming electric signals, synchronizing the incoming electric signals to a charging bin, enabling the charging bin to transmit the incoming electric signals to the earphone through a communication mode matched with the earphone state of the earphone, driving the earphone which is kept connected with the charging bin, establishing a communication channel with an incoming party sending the incoming electric signals in the earphone state, and enabling the earphone not to establish communication connection with the mobile terminal.

A wireless telephony device, for a charging bin, comprising:

an incoming call signal receiving unit, configured to receive an incoming call signal synchronized by a mobile terminal in communication with the charging bin when the mobile terminal receives an incoming call signal;

a communication mode determining unit, configured to detect an earphone state of the earphone and determine a communication mode matched with the earphone state when the earphone that is kept connected with the charging bin does not establish communication connection with the mobile terminal;

And the incoming call signal transmission unit is used for transmitting the incoming call signal to the earphone in a communication mode matched with the state of the earphone so that the earphone establishes a call channel with an incoming call party sending the incoming call signal in the state of the earphone.

A wireless telephony device, for use with an earphone, comprising:

the earphone state matching unit is used for determining a communication mode matched with the earphone state of the earphone when the mobile terminal synchronously communicating with the charging bin receives an incoming call signal, wherein the earphone state is obtained by detecting the charging bin which is kept connected with the earphone, and the earphone is not in communication connection with the mobile terminal;

the incoming call signal receiving unit is used for receiving the incoming call signal transmitted by the charging bin in a communication mode matched with the state of the earphone;

and the call channel establishing unit is used for establishing a call channel with an incoming party sending the incoming signal through the charging bin in the state of the earphone.

A wireless telephony device, for use in a mobile terminal, comprising:

the incoming call signal synchronization unit is used for receiving incoming call signals and synchronizing the incoming call signals to the charging bin, so that the charging bin can transmit the incoming call signals to the earphone in a communication mode matched with the earphone state of the earphone, the earphone which is connected with the charging bin is driven, a call channel is established between the earphone and an incoming call party sending the incoming call signals in the earphone state, and communication connection between the earphone and the mobile terminal is not established.

A wireless telephony electronic device comprising a memory and a processor;

the memory is used for storing programs;

the processor is configured to execute the program to implement the steps of the wireless communication method as described above.

A readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of a wireless telephony method as described above.

By means of the technical scheme, when the mobile terminal communicated with the charging bin receives incoming signals, the mobile terminal receives incoming signals synchronized by the mobile terminal, when the earphone kept connected with the charging bin is not in communication connection with the mobile terminal, the earphone state of the earphone is detected, the communication mode matched with the earphone state is determined, the incoming signals are transmitted to the earphone through the communication mode matched with the earphone state, and accordingly the earphone is in communication channel with an incoming party sending the incoming signals under the earphone state. Therefore, when the mobile terminal receives the incoming call signal and the earphone is not in communication connection with the mobile terminal, the incoming call signal can be synchronized to the charging bin, and when the mobile terminal is always connected with the charging bin, the charging bin can rapidly transmit the incoming call signal to the earphone according to different states of the detected earphone, so that the earphone can rapidly acquire the incoming call information and a communication channel with an incoming party is pre-established. Because the communication channel is established before communication, the earphone can receive communication parameters transmitted by the charging bin in advance, so that when the charging bin responds to a communication-on instruction, the earphone can respond to the communication rapidly, the communication efficiency is improved, and the time delay of communication response is effectively reduced.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the application. Also, like reference numerals are used to designate like parts throughout the figures. In the drawings:

fig. 1 is a system architecture diagram for implementing a wireless call according to an embodiment of the present application;

fig. 2 is a schematic flow chart of implementing wireless communication by the charging bin according to the embodiment of the present application;

fig. 3 is a schematic flow chart of implementing wireless communication by using an earphone according to an embodiment of the present application;

fig. 4 is a schematic flow chart of implementing a wireless call by using a mobile terminal according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a device for implementing wireless communication by using a charging bin according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a device for implementing wireless communication by using an earphone according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a device for implementing wireless communication for a mobile terminal according to an embodiment of the present application;

fig. 8 is a schematic structural diagram of an electronic device for implementing wireless communication according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

Fig. 1 is an optional system architecture for implementing a wireless call according to an embodiment of the present application, as shown in fig. 1, where the system architecture may include:

charging bin 10, earphone 20 and mobile terminal 30.

Specifically, the charging bin 10 and the mobile terminal 30 may have SIM cards, so that the charging bin 10 and the mobile terminal 30 may have a function of receiving an incoming call signal of an incoming call party through the SIM cards. The charging bin 10 in this embodiment may further have an eSIM card built in, based on the characteristics that the eSIM card supports a dual-number terminal and an independent number, the charging bin 10 may not only receive an incoming signal with the same number as the mobile terminal through a preconfigured eSIM card (i.e. when the mobile terminal is incoming, the charging bin may synchronously receive the incoming signal through the eSIM card), but also use the independent number through the preconfigured eSIM card, and directly receive the incoming signal of the independent number. The charging bin 10 and the mobile terminal 30 in this embodiment may both have a display function to display incoming call information to the user. Both the charging bin 10 and the mobile terminal 30 may have a touch function to connect an incoming call by responding to a user's connect touch operation and hang-up a call by responding to a user's hang-up touch operation.

It should be noted that, because there is only one SIM card with the same id, the charging bin 10 and the mobile terminal 30 cannot receive the incoming call signal of the same incoming call party through the same SIM card at the same time, but the charging bin 10 can receive the incoming call signal of the same incoming call party through the eSIM and the mobile terminal 30 at the same time.

In some examples, the charging bin 10 may be connected to the mobile terminal 30 through communication software or bluetooth, so that when the charging bin 10 or the mobile terminal 30 receives an incoming signal, the current incoming signal may be synchronized to the connected other end device, so that both the charging bin 10 and the mobile terminal 30 can obtain the incoming signal of the incoming party.

The earphone 20 can be connected with the charging bin 10 without establishing communication connection with the mobile terminal, and the earphone 20 can play the talking voice of the caller to the user.

In some embodiments of the invention, the headset does not establish a communication connection with the mobile terminal, while the mobile terminal maintains a communication connection with a charging cradle adapted to the headset; on the premise of the above, based on the system architecture shown in fig. 1, fig. 2 shows a schematic flow chart of a wireless communication method implemented by the charging bin 10 provided in the embodiment of the present application, and referring to fig. 2, the flow may include:

Step S110, when the mobile terminal 30 in communication with the charging bin 10 receives an incoming signal, the incoming signal synchronized by the mobile terminal 30 is received.

It will be appreciated that the charging bin 10 is connected to the mobile terminal 30 through communication software, and when the mobile terminal 30 receives an incoming signal, the incoming signal can be synchronized to the charging bin 10 by means of the apple notification center service ANCS (Apple Notification Center Service) or the mobile terminal APP under bluetooth connection, so that the charging bin 10 obtains the incoming signal.

Step S120, when the headset 20 connected to the charging bin 10 does not establish communication connection with the mobile terminal 30, detecting a headset state of the headset 20, and determining a communication mode matched with the headset state.

Specifically, the earphone state may represent a state corresponding to a relationship between the earphone 20 and the charging bin 10, and specifically may include an in-bin state of the earphone 20 in the charging bin 10, and an out-bin state of the earphone 20 outside the charging bin 10. The headset state may also represent a state of use of the headset 20 during a conversation, such as an in-ear state and a non-in-ear state. Different communication modes can be adopted for different earphone states.

Step S130, the incoming call signal is transferred to the earphone 20 through a communication mode matched with the earphone state, so that the earphone 20 establishes a call channel with an incoming party sending the incoming call signal in the earphone state.

Specifically, the call channel may represent a channel through which the caller and the earphone 20 call, and the earphone 20 may receive the call parameter transferred by the charging bin through the call channel.

It can be understood that the user needs to communicate with the caller through the earphone 20, and before the earphone 20 is connected to the caller, the communication channel can be established in advance in various earphone states to obtain the communication parameters required for entering the call, so that the earphone 20 can trigger the execution based on the incoming call signal transmitted by the charging bin 10.

Further, after the earphone 20 establishes a call channel with the caller, the call transmission parameter can be received through the call channel, so that when the charging bin 10 responds to the instruction of calling the caller, the earphone 20 can quickly respond to the incoming call based on the call transmission parameter, the time difference between the instruction of calling the caller by responding to the charging bin 10 and the incoming call by responding to the earphone 20 is shortened, and the time delay of call response is effectively reduced.

According to the wireless communication method provided by the embodiment, when the mobile terminal 30 communicating with the charging bin 10 receives an incoming signal, the charging bin 10 receives the incoming signal synchronized by the mobile terminal 30, and when the earphone 20 which is kept connected with the charging bin 10 is not connected with the mobile terminal 30 in a communication way, the earphone state of the earphone 20 is detected, the communication way matched with the earphone state is determined, and the incoming signal is transmitted to the earphone 20 through the communication way matched with the earphone state, so that the earphone 20 establishes a communication channel with an incoming party which sends the incoming signal in the earphone state. Therefore, when the mobile terminal 30 receives an incoming electrical signal and the earphone 20 does not establish communication connection with the mobile terminal 30, the electrical signal can be synchronized to the charging bin 10, and when the mobile terminal 30 is always connected with the charging bin 10, the charging bin 10 can rapidly transmit the electrical signal to the earphone 20 according to different states of the detected earphone 20, so that the earphone 20 can rapidly acquire incoming call information and pre-establish a communication channel with an incoming call party. Because the communication channel is established before communication, the earphone 20 can receive the communication parameters transmitted by the charging bin 10 in advance, so that when the charging bin 10 responds to the instruction of communicating communication, the earphone can respond to the communication rapidly, thereby improving the communication efficiency and effectively reducing the time delay of communication response.

In some embodiments of the present application, a procedure for determining a communication mode matching the state of the earphone mentioned in the foregoing embodiment is described, where the procedure may include:

if the earphone state is the in-bin state of the earphone 20 in the charging bin 10, determining that the communication mode matched with the in-bin state is a PIN in-bin communication mode.

Specifically, the PIN in-bin communication mode may represent a wired connection communication mode in which the earphone 20 and the charging bin 10 are connected through contacts.

It will be appreciated that, in general, the earphone 20 is placed in the charging bin 10 for charging, or is placed in the charging bin 10, then when the earphone 20 is placed in the charging bin 10, the earphone state may be in the bin state, and since the earphone 20 communicates with the charging bin 10 through the contact in the charging bin 10, then the communication mode matched with the bin state may be determined to be the PIN in-bin communication mode.

Based on this, in step S130 in the foregoing embodiment, the process of transferring the incoming call signal to the headset 20 through a communication manner matched with the headset state, so that the headset 20 establishes a call channel with the caller that sends the incoming call signal in the headset state may include:

The incoming call signal is transmitted to the earphone 20 through the PIN in-bin communication mode, so that the earphone 20 establishes a call channel with an incoming call party sending the incoming call signal through the charging bin 10 in the in-bin state.

It will be appreciated that, since the device for transmitting the incoming call signal to the headset 20 is the charging bin 10, the call path established by the headset 20 with the incoming call party needs to pass through the charging bin 10, and then the parameters required for the headset 20 to enter the call need to be provided by the charging bin 10, and the parameters can be transmitted from the charging bin 10 to the headset 20 by wired transmission.

Since the earphone 20 establishes a call path with the caller through the charging bin 10, a call signal when the earphone 20 is in a call with the caller may also pass through the charging bin 10.

According to the wireless communication method provided by the embodiment, when the state of the earphone is in the bin state, if the earphone 20 is not in communication connection with the mobile terminal 30, an electric signal is transmitted to the earphone 20 in the PIN bin communication mode, when the mobile terminal 30 is always connected with the charging bin 10, the charging bin 10 can rapidly transmit the electric signal to the earphone 20 according to different states of the detected earphone 20, so that the earphone 20 can rapidly acquire incoming call information, a communication channel with an incoming party is pre-established, the earphone 20 can receive communication parameters transmitted by the charging bin 10 in advance through the communication channel, and the earphone 20 can rapidly respond to a communication when the charging bin 10 responds to a communication-on instruction.

In some embodiments of the present application, considering that when the charging bin 10 receives an incoming electrical signal, the state of the charging bin 10 is related to a connection manner of the earphone 20 and the connection manner is related to a manner of communicating with an incoming call party by the earphone 20, after the incoming call signal is transmitted to the earphone 20 through the PIN in-bin communication manner, the wireless communication method provided in the present application may further include the following procedures:

when the charging bin 10 is in the uncapped state, the charging bin 10 may maintain a wired connection with the earphone 20 and establish a wireless connection with the earphone 20.

Specifically, if the state of the charging bin 10 when receiving the incoming electrical signal is the open-cover state, it may indicate that the user is ready to take out the headset 20 from the charging bin 10 and put on the headset 20 to perform wireless communication, so that the charging bin 10 may establish wireless connection with the headset 20 while maintaining wired connection with the headset 20 already in the in-bin state, so that after the user takes out the headset 20 from the charging bin 10 (disconnects the wired connection), the charging bin 10 may continuously maintain connection with the headset 20, and avoid connection interruption.

Further, when the headphones 20 in the uncapped charging bin 10 are taken out, it can be detected that the headphone state is changed from the in-bin state to the out-bin state.

Specifically, the out-of-bin state may indicate that the headset 20 is outside the charging bin 10, so that the headset 20 and the charging bin 10 are disconnected from a wired connection through a contact, but the headset 20 still maintains a wireless connection with the charging bin 10, so that the headset 20 can receive a call parameter of a call channel established between the headset 20 and an incoming party through the charging bin 10 under the wireless connection, and the response time of a subsequent incoming call is shortened.

According to the wireless communication method provided by the embodiment, when the charging bin 10 is in the uncapped state, wireless connection with the earphone 20 can be established, so that after the charging bin 10 is disconnected from the earphone 20, communication can be still kept in a wireless connection mode, and when the charging bin 10 receives an incoming signal, the earphone 20 can ensure that a communication channel is established with an incoming party through the charging bin 10 quickly, so that the communication experience of a user is improved.

if the earphone state is the out-of-bin state of the earphone 20 outside the charging bin 10, it may be determined that the communication mode matched with the out-of-bin state of the earphone is a BLE communication mode or an SPP communication mode.

Specifically, the BLE communication method may represent a bluetooth communication method adopting the Bluetooth Low Energy protocol, and the SPP communication method may represent a bluetooth communication method adopting the Serial Port Profile protocol.

It will be appreciated that when the headset 20 is positioned outside the charging cartridge 10, the wired connection through the contacts is broken, and then a wireless connection through bluetooth communication may be maintained between the headset 20 and the charging cartridge 10 by means of bluetooth communication.

On this basis, in step S130 mentioned in the foregoing embodiment, the process of transmitting the incoming call signal to the earphone through a communication manner matched with the state of the earphone so that the earphone establishes a call channel with the caller sending the incoming call signal in the state of the earphone may specifically include:

if the earphone state is the out-of-bin state, the incoming call signal is transmitted to the earphone 20 through the BLE communication mode or the SPP communication mode, so that the earphone 20 passes through the charging bin 10 in the out-of-bin state, and a call channel is established with an incoming call party sending the incoming call signal.

Specifically, when the earphone state is the out-of-bin state, the call channel established by the earphone can enable the earphone 20 to enter parameters required by the call, and the parameters can be transmitted to the earphone 20 by wireless transmission based on a BLE protocol or an SPP protocol.

According to the wireless communication method provided by the embodiment, when the charging bin 10 acquires the incoming signal, the charging bin 10 can be in wireless connection with the earphone 20 under the condition that the earphone 20 is outside the charging bin, so that the earphone 20 and the charging bin 10 can keep communicating at all times, and the earphone 20 can be ensured to quickly establish a communication channel with an incoming party through the charging bin in an out-of-bin state.

In particular, the in-ear state may indicate that the headset 20 is in a use state in which the user places it in the ear.

It will be appreciated that when the earphone state is the in-ear state, which corresponds to the earphone 20 being located outside the charging bin 10, the wired connection through the contact is disconnected, and then the wireless connection between the earphone 20 and the charging bin 10 can be maintained by means of bluetooth communication.

If the earphone state is the in-ear state, the incoming call signal is transmitted to the earphone 20 through the BLE communication mode or the SPP communication mode, so that the earphone 20 passes through the charging bin 10 in the in-ear state to establish a call channel with an incoming party sending the incoming call signal.

Specifically, when the earphone state is the in-ear state, the call channel established by the earphone can enable the earphone 20 to enter the parameters required by the call, and the parameters can be transmitted to the earphone 20 by wireless transmission based on BLE protocol or SPP protocol.

According to the wireless communication method provided by the embodiment, when the charging bin 10 acquires the incoming signal, the charging bin 10 can be in wireless connection with the earphone 20 under the condition that the earphone 20 is in the ear, so that the earphone 20 and the charging bin 10 can keep communication at all times, and the earphone 20 can be ensured to quickly establish a communication channel with an incoming party through the charging bin in the ear-in state.

In some embodiments of the present application, a procedure for receiving an incoming call signal synchronized with the mobile terminal 30 mentioned in the above embodiments is described, and the procedure may include:

and acquiring the incoming call signals synchronized by the mobile terminal 30 through the preset software associated with the mobile terminal.

The received incoming call signal is that the mobile terminal 30 searches a target charging bin connected with the mobile terminal 30 through the preset software, and sends the target charging bin.

Specifically, the preset software may be software for implementing synchronization of incoming call signals and incoming call information between the charging bin 10 and the mobile terminal 30. The mobile terminal 30 may be preconfigured with a plurality of target charging bins in preset software, and the target charging bins may be preconfigured with preset software, when the mobile terminal 30 receives an incoming signal, the mobile terminal 30 may synchronize the incoming signal to each target charging bin through the preset software, and a display interface of each target charging bin may display the incoming signal synchronized by the mobile terminal 30.

According to the wireless communication method provided by the embodiment, the charging bin 10 and the mobile terminal 30 are associated through the preset software, so that when the mobile terminal 30 receives an incoming signal, the incoming signal can be synchronized to the charging bin 10 through the preset software, a user carrying the charging bin 10 is convenient to carry about, the incoming signal can be found out timely and communicated, the wireless communication efficiency can be improved, and missing of answering of an incoming call is avoided.

Considering that the purpose of pre-establishing a call channel between the headset 20 and the caller is to enable the headset 20 to respond faster when the user is making a call through the headset 20, in some embodiments of the present application, the wireless call method may further include the following procedures:

After confirming that the earphone 20 successfully establishes a call channel with the caller who sent the incoming call signal, an instruction for switching on the incoming call signal is obtained.

Specifically, confirmation of successful establishment of the call path between the headset 20 and the caller may indicate that the work before the call is completed is confirmed, and the call is ready, and an instruction to complete the call may be obtained, so as to complete the call based on the instruction to complete the call.

After confirming that the earphone 20 and the caller who sends the incoming call signal successfully establish a call channel, the charging bin 10 may prompt the user for the incoming call signal by displaying information of the incoming call signal, playing a prompt tone by the earphone 20, and the like, based on which, the process of obtaining the instruction for switching on the incoming call signal may specifically be any one of two cases, which is specifically as follows:

first, an instruction for switching on the incoming call signal is generated in response to an operation of switching on the incoming call by a user through touch in the display interface of the charging bin 20.

For example, after the charging bin 20 obtains the incoming call signal and confirms that the earphone 20 and the caller who sends the incoming call signal successfully establish a call channel, incoming call information is displayed in the display interface of the charging bin 20, a user can view and learn specific information of the incoming call on the display interface of the charging bin 20, and when the user needs to switch on the incoming call, a click or a slide and the like can be triggered in the display interface to realize a switch-on action of switching on the incoming call, so that an instruction for switching on the incoming call signal is generated.

And second, acquiring an instruction of turning on the incoming call signal sent by the earphone 20.

The instruction sent by the earphone 20 to switch on the incoming call signal may be generated by the earphone 20 in response to an operation of wearing the earphone 20 by a user, or generated by the earphone 20 in response to an operation of touching a sensing contact on the earphone by a user, or generated by the earphone 20 collecting voice data with an intention of answering an incoming call sent by a user.

It will be appreciated that, in one example, when the user needs to communicate with the caller because the user knows that the caller needs to communicate with the caller, the user often needs to wear the earphone 20 for privacy of communication, so the act of wearing the earphone 20 can be used as the act of triggering the switch-on, so that the user omits the act of additionally conducting the switch-on. In another example, when the user is using/wearing the earphone 20, the charging bin 10 receives an incoming electrical signal and needs to prompt the earphone 20, the earphone 20 can play a prompt tone, and the user needs to switch the earphone function to be a call function, so that the user can touch the sensing contact on the earphone 20 as the action of triggering the on, and the user can quickly conduct the on action. In yet another example, when the user is using/wearing the earphone 20, the charging bin 10 receives an incoming electrical signal and needs to prompt the earphone 20, the earphone 20 can play a prompt tone, and the user needs to switch the earphone function to a call function, so that a voice command for triggering the call connection can be generated by collecting voice data with the intention of answering the call, which is sent by the user, through a microphone on the earphone 20, so that the user can omit an additional action of connection, and can respond to the call connection quickly.

For example, after the charging bin 20 acquires the incoming call signal and confirms that the caller who sends the incoming call signal successfully establishes a call channel, the display interface of the charging bin 20 displays incoming call information and plays a prompt tone of the incoming call, the user can execute the action of wearing the earphone, or touch/press the earphone 20 for a long time, or send a voice command of answering the incoming call to the microphone of the earphone 20, so that after recognizing that the user needs to execute the operation of answering the call, the earphone 20 generates a command of answering the incoming call signal, and then the earphone 20 can transmit the command of answering the incoming call signal to the charging bin 10.

Further, when the user is ready to end the call, the call end instruction needs to be triggered, so the call end instruction can be obtained in the following ways:

1) The mobile terminal 30 responds to the operation of ending the call by the touch of the user and transmits the call to the charging bin 10.

It will be appreciated that the mobile terminal 30 is a device for receiving an incoming call signal, and may have control authority for wireless communication, so that the mobile terminal 30 may respond to a user clicking/sliding a control for ending a communication in a communication interface of the mobile terminal 30 to generate an instruction for ending the communication.

2) The charging bin 10 responds to the operation of ending the call by the touch of the user.

It can be understood that, the charging bin 10 is a device for acquiring the incoming call signal synchronized with the mobile terminal 30, and may have control authority of wireless communication, so that the charging bin 10 may respond to a user clicking/sliding a control for ending the communication in a communication interface of the charging bin 10 to generate an instruction for ending the communication.

3) The earphone 20 responds to the user canceling the operation of wearing the earphone 20 and transmits to the charging bin 10.

It will be appreciated that the user cancelling the action of wearing the headset 20 may indicate that the user terminates the wireless call with the party calling through the headset, so cancelling the action of wearing the headset 20 may act as an action of ending the call, and when the user cancels wearing the headset 20, an instruction to end the call may be generated.

4) The earphone 20 is generated in response to the time of the user touching the earphone reaching the preset time, and is transmitted to the charging bin 10.

5) The earphone 20 collects voice audio data representing the intention of ending the call, which is sent by the user, and transmits the voice audio data to the charging bin 10.

Specifically, the preset time may indicate that the user expresses a duration of time for which the user needs to end the call to press the headset 20, so when the user touches the headset 20 for the preset time, the user may indicate that the user needs to end the call, so as to generate an instruction for ending the call.

In the wireless communication method provided in this embodiment, after the charging bin 10 confirms that the earphone 20 and the caller who sends the incoming call signal successfully establish a communication channel, an instruction for making a call signal can be generated by a user touching the display interface of the charging bin 10 to make a call, or by a user wearing the earphone 20, or by touching a sensing contact on the earphone 20, or by a voice audio of the incoming call collected by a microphone of the earphone 20. Therefore, the charging bin 10 is matched with the earphone 20 to realize wireless communication, the operation of triggering to answer on the mobile terminal 30 is not needed, the wireless communication can be realized when the mobile terminal 30 has an incoming call under the condition that the charging bin 10 and the earphone 20 are only carried, the user can conveniently and rapidly connect the communication, and the efficiency of the wireless communication is improved.

Next, in some embodiments of the present application, a method of wireless communication will be described from the perspective of the headset 20.

Based on the system architecture shown in fig. 1, fig. 3 shows a schematic flow chart of a method for implementing a wireless communication by using the headset 20 according to an embodiment of the present application, and referring to fig. 3, the flow may include:

step S210, when the mobile terminal 30 that communicates synchronously with the charging bin 10 receives the incoming electrical signal, determining a communication mode that matches the earphone state of the earphone 20.

Specifically, the earphone state may be detected by the charging bin 10 that is connected to the earphone 20, and different communication modes may be adopted according to different earphone states of the earphone 20, where the earphone may communicate with the charging bin 10 through the communication modes.

The communication mode adopted by the headset 20 may include PIN in-bin communication and wireless communication, and the headset 20 does not establish communication connection with the mobile terminal 30.

Step S220, receiving the incoming call signal transmitted by the charging bin 10 through a communication mode matched with the earphone state.

It can be understood that the user needs to communicate with the caller through the earphone 20, and before the earphone 20 is connected to the caller, the communication channel can be established in advance in various earphone states to obtain the communication parameters required for entering the communication, so that the earphone 20 can trigger the establishment of the communication channel based on the incoming call signal, and needs to receive the incoming call signal transmitted by the charging bin 10.

Step S230, in the earphone state, establishes a call channel with the caller who sends the incoming call signal through the charging bin 10.

In the wireless communication method provided in this embodiment, when the mobile terminal 30 that synchronously communicates with the charging bin 10 receives an incoming signal, a communication mode that matches with the earphone state of the earphone 20 is determined, the incoming signal transmitted by the charging bin 10 is received by the communication mode that matches with the earphone state, and in the earphone state, a communication channel is established between the mobile terminal 30 and an incoming party that sends the incoming signal through the charging bin 10, wherein the earphone 20 does not establish communication connection with the mobile terminal 30. Therefore, when the mobile terminal 30 receives an incoming signal and the headset 20 does not establish communication connection with the mobile terminal 30, the mobile terminal 30 can receive an incoming signal of the charging bin 10 synchronous with the mobile terminal 30, and when the mobile terminal 30 is always connected with the charging bin 10, the charging bin 10 can quickly transmit the incoming signal to the headset 20 according to different states of the headset 20 detected, so that the headset 20 can quickly acquire incoming information and pre-establish a call channel with an incoming party, because the call channel is established before a call, the headset 20 can pre-receive call parameters transmitted by the charging bin 10 based on the call channel, and when the charging bin 10 is connected with the call, the headset can quickly respond to the call accordingly, thereby improving the success rate and efficiency of the call.

In some embodiments of the present application, the process of receiving the incoming call signal transmitted by the charging bin 10 in the communication manner matched with the earphone state in the step S220 is described, and the process may include:

s1, if the earphone state is the in-bin state of the earphone 20 in the charging bin, and the mobile terminal 30 is not connected with the earphone 20, determining that the communication mode matched with the earphone state is a PIN in-bin communication mode.

It will be appreciated that, in general, the headset 20 is placed in the charging bin 10 for charging, or is placed inside the charging bin 10, then when the headset 20 is placed inside the charging bin 10, the headset state may be in the bin state, then when the headset state is in the bin state, and the mobile terminal 30 is not connected to the headset 10, since the headset 20 communicates with the charging bin 10 through the contacts in the charging bin 10, then it may be determined that the communication mode matching the bin state is the PIN in-bin communication mode. If the mobile terminal 30 is connected to the headset 20, the mobile terminal 30 can directly transfer the electric signal to the headset 20 after receiving the incoming call signal without being transferred through the charging bin 10.

S2, receiving the incoming call signal transmitted by the charging bin 10 through the PIN communication mode.

Specifically, in the case where the earphone state is in the bin state, the charging bin 10 may transmit an electric signal to the earphone 20 through PIN communication.

s1, if the earphone state is the out-of-bin state of the earphone 20 outside the charging bin, and the mobile terminal 30 is not connected with the earphone 10, determining that the communication mode matched with the earphone state is a wireless communication mode.

Specifically, the wireless communication mode may be a wifi-based communication mode, or may be a bluetooth communication mode based on BLE protocol or SPP protocol.

The BLE communication method may represent a bluetooth communication method using Bluetooth Low Energy protocol, and the SPP communication method may represent a bluetooth communication method using Serial Port Profile protocol.

It will be appreciated that when the headset 20 is used by a user, the headset 20 is located outside the charging bin 10, and the headset state of the headset 20 may be the out-of-bin state, and when the headset state is the out-of-bin state and the mobile terminal 30 is not connected to the headset 10, the headset 20 is disconnected from the charging bin 10 and maintains the wireless connection established when the cover is opened, so that the communication manner between the headset 20 and the charging bin 10 is a wireless communication manner. If the mobile terminal 30 is connected to the headset 20, the mobile terminal 30 can directly transfer the electric signal to the headset 20 after receiving the incoming call signal without being transferred through the charging bin 10.

S2, receiving the incoming call signal transmitted by the charging bin in the wireless communication mode.

Specifically, under the earphone state being the out-of-bin state, the charging bin 10 may transmit the electric signal to the earphone 20 through wireless communication.

In some embodiments of the present application, considering that the charging bin 10 with the eSIM card inside can directly receive the incoming call signal, and the communication manner between the charging bin 10 and the earphone 20 may also be related to the state of the charging bin, the wireless communication method provided in the present application may further include the following procedures:

when the charging bin 10 receives the incoming call signal, the incoming call signal transmitted by the charging bin through a communication mode matched with the earphone state of the earphone is received.

Specifically, when the charging bin 10 is in the uncapped state and the earphone 20 is in the charging bin 10, the incoming call signal transmitted by the charging bin 10 through the PIN communication manner may be received.

It can be understood that, if the state of the charging bin 10 when receiving the incoming electrical signal is the open state, and the earphone 20 is placed in the charging bin 10 at this time, it can indicate that the user is ready to take out the earphone 20 from the charging bin 10 and wear and perform wireless communication, so that the charging bin 10 can establish wireless connection with the earphone 20 under the condition of maintaining the wired connection with the earphone 20, so that after the user removes the earphone 20 from the charging bin 10 (disconnects the wired connection), the charging bin 10 can maintain connection with the earphone 20.

Next, in some embodiments of the present application, a method of wireless communication will be described from the perspective of the mobile terminal 30.

Based on the system architecture shown in fig. 1, fig. 4 shows a schematic flow chart of a wireless communication method implemented by the mobile terminal 30 according to an embodiment of the present application, and referring to fig. 4, the flow may include:

step S310, receiving an incoming call signal, and synchronizing the incoming call signal to the charging bin 10, so that the charging bin 10 transfers the incoming call signal to the earphone 20 in a communication manner matched with the earphone state of the earphone 20, and drives the earphone 20 which is kept connected with the charging bin 10, and establishes a communication channel with an incoming party sending the incoming call signal in the earphone state.

Specifically, the headset 20 does not establish a communication connection with the mobile terminal 30.

In the wireless communication method provided in this embodiment, the mobile terminal 30 receives an incoming signal and synchronizes the incoming signal to the charging bin 10, so that the charging bin 10 transmits the incoming signal to the headset 20 in a communication mode matched with the headset state of the headset 20, drives the headset 20 connected with the charging bin 10, and establishes a communication channel with an incoming party sending the incoming signal in the headset state, wherein the headset 20 does not establish communication connection with the mobile terminal 30. Therefore, after the mobile terminal 30 receives the incoming call signal, since the earphone 20 does not establish communication connection with the mobile terminal 30, the mobile terminal 30 can synchronize the incoming call signal to the charging bin 10, and the charging bin 10 can quickly transmit the incoming call signal to the earphone 20 according to the detected different states of the earphone 20, so that the earphone 20 can quickly acquire the incoming call information, and pre-establish a call channel with the incoming party.

The following describes a wireless communication device provided in the embodiments of the present application, and the wireless communication device described below and the wireless communication method described above may be referred to correspondingly.

First, referring to fig. 5, a wireless communication device applied to the charging bin 10 will be described, and as shown in fig. 5, the wireless communication device may include:

an incoming call signal receiving unit 11, configured to receive an incoming call signal synchronized by a mobile terminal in communication with the charging bin when the mobile terminal receives an incoming call signal;

a communication mode determining unit 12, configured to detect an earphone state of the earphone and determine a communication mode matched with the earphone state when the earphone connected to the charging bin does not establish communication connection with the mobile terminal;

and the incoming call signal transmission unit 13 is used for transmitting the incoming call signal to the earphone in a communication mode matched with the state of the earphone so that the earphone establishes a call channel with an incoming call party sending the incoming call signal in the state of the earphone.

Optionally, the communication mode determining unit includes:

and the PIN communication mode determining unit is used for detecting the earphone state of the earphone when the earphone which is kept connected with the charging bin is not in communication connection with the mobile terminal, and determining that the communication mode matched with the in-bin state is the PIN in-bin communication mode if the earphone state is the in-bin state of the earphone in the charging bin.

Optionally, the incoming call signal transmission unit includes:

and the PIN communication transfer unit is used for transferring the incoming call signal to the earphone in the in-cabin communication mode through the PIN if the earphone state is in the in-cabin state, so that the earphone can establish a communication channel with an incoming party sending the incoming call signal through the charging cabin in the in-cabin state.

Optionally, the apparatus further comprises:

and the wireless connection establishing unit is used for maintaining wired connection with the earphone and establishing wireless connection with the earphone when the charging bin is in a uncapped state after the PIN communication transmitting unit transmits the incoming call signal to the earphone in a bin communication mode.

Optionally, the apparatus further comprises:

and the wired connection disconnection unit is used for disconnecting the wired connection with the earphone and keeping the wireless connection with the earphone if the earphone state is detected to be changed from the in-cabin state to the out-cabin state, so that the earphone receives the call message of the caller through the charging cabin to carry out wireless call under the wireless connection with the charging cabin.

Optionally, the communication mode determining unit includes:

And the Bluetooth communication mode determining unit is used for detecting the earphone state of the earphone when the earphone which is kept connected with the charging bin is not in communication connection with the mobile terminal, and determining that the communication mode matched with the discharging bin state is a BLE communication mode or an SPP communication mode if the earphone state is the discharging bin state of the earphone outside the charging bin.

Optionally, the incoming call signal transmission unit includes:

and the Bluetooth communication transfer unit is used for transferring the incoming call signal to the earphone through the BLE communication mode or the SPP communication mode if the earphone state is the delivery state, so that the earphone passes through the charging bin in the delivery state, and a call channel is established between the earphone and an incoming party sending the incoming call signal.

Optionally, the communication mode determining unit includes:

and the in-ear communication mode determining unit is used for determining that the communication mode matched with the in-ear state is a BLE communication mode or an SPP communication mode if the state of the earphone is the in-ear state of the earphone outside the charging bin.

Optionally, the incoming call signal transmission unit includes:

and the in-ear communication transfer unit is used for transferring the incoming call signal to the earphone through the BLE communication mode or the SPP communication mode if the earphone state is the in-ear state, so that the earphone passes through the charging bin in the in-ear state, and a call channel is established with an incoming party sending the incoming call signal.

Optionally, the incoming call signal receiving unit includes:

and the software communication signal receiving unit is used for acquiring an incoming call signal synchronized by the mobile terminal through preset software related to the mobile terminal when the mobile terminal communicated with the charging bin receives the incoming call signal, and the received incoming call signal is sent to the target charging bin by searching the target charging bin connected with the mobile terminal through the preset software for the mobile terminal.

Optionally, the apparatus further comprises:

and the switching-on instruction acquisition unit is used for acquiring an instruction for switching on the incoming call signal after confirming that the earphone and the incoming call party sending the incoming call signal successfully establish a call channel.

Optionally, the on instruction acquiring unit includes:

the first switch-on instruction acquisition subunit is used for responding to the operation of touch control switch-on of the incoming call by a user in the display interface of the charging bin and generating an instruction for switching on the incoming call signal;

or alternatively, the first and second heat exchangers may be,

and the second connection instruction acquisition subunit is used for acquiring an instruction which is sent by the earphone and used for connecting the incoming call signal.

Optionally, the apparatus further comprises:

a configuration card signal receiving unit for receiving an incoming call signal of an incoming party through a pre-configured SIM card or eSIM card;

And the incoming call information display unit is used for displaying incoming call information corresponding to the incoming call signal.

Further, referring to fig. 6, a wireless telephony device applied to the headset 20, as shown in fig. 6, the wireless telephony device may include:

an earphone state matching unit 21, configured to determine, when a mobile terminal in synchronous communication with a charging bin receives an incoming call signal, a communication mode matching an earphone state of the earphone, where the earphone state is detected by the charging bin that is kept connected with the earphone, and the earphone does not establish communication connection with the mobile terminal;

an incoming call signal receiving unit 22, configured to receive the incoming call signal transmitted by the charging bin through a communication manner matched with the state of the earphone;

and a call channel establishing unit 23, configured to establish a call channel with an incoming party sending the incoming signal through the charging bin in the earphone state.

Optionally, the incoming call signal receiving unit includes:

the in-bin receiving unit is used for determining that a communication mode matched with the state of the earphone is a PIN in-bin communication mode if the state of the earphone is in-bin state of the earphone in the charging bin and the mobile terminal is not connected with the earphone;

And the PIN communication transmission receiving unit is used for receiving the incoming call signals transmitted by the charging bin in the PIN communication mode.

Optionally, the incoming call signal receiving unit includes:

the discharging and receiving unit is used for determining that the communication mode matched with the earphone state is a wireless communication mode if the earphone state is a discharging state of the earphone outside the charging bin and the mobile terminal is not connected with the earphone;

and the wireless transmission receiving unit is used for receiving the incoming call signal transmitted by the charging bin in the wireless communication mode.

Optionally, the apparatus further comprises:

and the charging bin incoming signal acquisition unit is used for receiving the incoming signal transmitted by the charging bin in a communication mode matched with the earphone state of the earphone when the charging bin receives the incoming signal.

Still further, referring to fig. 7, a wireless telephony device applied to a mobile terminal 30, as shown in fig. 7, the wireless telephony device may include:

the incoming call signal synchronization unit 31 is configured to receive an incoming call signal, synchronize the incoming call signal to the charging bin 10, so that the charging bin 10 transfers the incoming call signal to the earphone 20 in a communication manner matched with an earphone state of the earphone 20, and drives the earphone 20 connected with the charging bin 10, and in the earphone state, establishes a call channel with an incoming call party sending the incoming call signal, and the earphone does not establish communication connection with the mobile terminal.

The wireless communication device provided by the embodiment of the application can be applied to wireless communication electronic equipment, such as a charging bin 10, an earphone 20, a mobile terminal 30 and the like. Optionally, fig. 8 shows a block diagram of a hardware structure of the wireless telephony electronic device, and referring to fig. 8, the hardware structure of the wireless telephony electronic device may include: at least one processor 1, at least one communication interface 2, at least one memory 3 and at least one communication bus 4;

in the embodiment of the application, the number of the processor 1, the communication interface 2, the memory 3 and the communication bus 4 is at least one, and the processor 1, the communication interface 2 and the memory 3 complete communication with each other through the communication bus 4;

processor 1 may be a central processing unit CPU, or a specific integrated circuit ASIC (Application Specific Integrated Circuit), or one or more integrated circuits configured to implement embodiments of the present invention, etc.;

the memory 3 may comprise a high-speed RAM memory, and may further comprise a non-volatile memory (non-volatile memory) or the like, such as at least one magnetic disk memory;

wherein the memory stores a program, the processor is operable to invoke the program stored in the memory, the program operable to: the foregoing processing flows of the charging bin 10 in the wireless communication scheme are implemented, or the foregoing processing flows of the earphone 20 in the wireless communication scheme are implemented, or the foregoing processing flows of the mobile terminal 30 in the wireless communication scheme are implemented.

The embodiment of the application also provides a storage medium, which may store a program adapted to be executed by a processor, the program being configured to: the foregoing processing flows of the charging bin 10 in the wireless communication scheme are implemented, or the foregoing processing flows of the earphone 20 in the wireless communication scheme are implemented, or the foregoing processing flows of the mobile terminal 30 in the wireless communication scheme are implemented.

Finally, it is further noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

In the present specification, each embodiment is described in a progressive manner, and each embodiment focuses on the difference from other embodiments, and may be combined according to needs, and the same similar parts may be referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The wireless communication method is characterized by being applied to a charging bin and comprising the following steps of:

2. The method of claim 1, wherein the determining a communication mode matching the headset status comprises:

3. The method of claim 2, wherein communicating the incoming call signal to the headset via a communication means that matches the headset state such that the headset establishes a call path with an incoming party that originated the incoming call signal in the headset state, comprises:

4. The method of claim 3, further comprising, after said passing said incoming call signal to said headset via said PIN in-bin communication:

5. The method as recited in claim 4, further comprising:

6. The method of claim 1, wherein the determining a communication mode matching the headset status comprises:

7. The method of claim 6, wherein communicating the incoming call signal to the headset via a communication means that matches the headset state such that the headset establishes a call path with an incoming party that originated the incoming call signal in the headset state, comprises:

8. The method of claim 1, wherein the determining a communication mode matching the headset status comprises:

9. The method of claim 8, wherein communicating the incoming call signal to the headset via a communication means that matches the headset state such that the headset establishes a call path with an incoming party that originated the incoming call signal in the headset state, comprises:

10. The method of claim 1, wherein receiving the incoming call signal synchronized by the mobile terminal comprises:

11. The method according to any one of claims 1-10, further comprising:

12. The method of claim 11, wherein the obtaining the instruction to turn on the incoming call signal comprises:

or alternatively, the first and second heat exchangers may be,

13. The method according to any one of claims 1-10, further comprising:

14. A wireless communication method, applied to a headset, comprising:

15. The method of claim 14, wherein said receiving said incoming call signal communicated by said charging bin via a communication means matching said headset status comprises:

16. The method of claim 14, wherein said receiving said incoming call signal communicated by said charging bin via a communication means matching said headset status comprises:

17. The method as recited in claim 14, further comprising:

18. A wireless telephony method, for use with a mobile terminal, comprising:

19. A wireless telephony device, adapted to a charging bin, comprising:

20. A wireless telephony electronic device comprising a memory and a processor;

the memory is used for storing programs;

the processor being configured to execute the program to perform the steps of the wireless telephony method of any of claims 1 to 13, or claims 14 to 17, or claim 18.

21. A readable storage medium having stored thereon a computer program, which when executed by a processor, performs the steps of the wireless telephony method of any of claims 1-13, or claims 14-17, or claim 18.