CN113645352A - Bluetooth headset anti-loss method, device and system and computer readable storage medium - Google Patents

Abstract

The invention discloses a Bluetooth headset anti-lost method, a device, a system and a computer readable storage medium, wherein the Bluetooth headset anti-lost method comprises the following steps: responding to a Bluetooth headset retrieving request, and acquiring headset historical position data stored by the mobile terminal; transmitting an earphone retrieving signal to a position area corresponding to the earphone historical position data, and if a Bluetooth reconnection request returned by the Bluetooth earphone in response to the earphone retrieving signal is received, establishing Bluetooth connection with the Bluetooth earphone; the method comprises the steps of detecting Bluetooth signal strength indication of Bluetooth connection, determining Bluetooth connection distance based on the Bluetooth signal strength indication, determining the lost position of the earphone according to the Bluetooth connection distance and historical position data of the earphone, and achieving the beneficial effect of quickly finding the lost Bluetooth earphone.

Description

Bluetooth headset anti-loss method, device and system and computer readable storage medium

Technical Field

The invention relates to the field of wireless earphones, in particular to a Bluetooth earphone anti-lost method, a Bluetooth earphone anti-lost device, a Bluetooth earphone anti-lost system and a computer readable storage medium.

Background

In the prior art, with the rapid development of mobile terminal technology and chip technology, the earphone market has also gained rapid development, and a plurality of Wireless earphones appear, wherein, a TWS (True Wireless Stereo) earphone can realize the separation of a bluetooth left channel and a bluetooth right channel, and meanwhile, the tone quality is also obviously improved. But because the earphone fuselage itself is small and exquisite, independent, lead to losing easily in the bluetooth headset processes such as using TWS earphone, and difficult finding back for user experience is not good.

Disclosure of Invention

The invention mainly aims to provide a Bluetooth headset anti-loss method, and aims to solve the technical problems that in the prior art, Bluetooth headsets such as TWS headsets are easy to lose and difficult to retrieve.

In order to achieve the above object, the present invention provides a bluetooth headset anti-lost method, which is applied to a mobile terminal, and comprises the following contents:

responding to a Bluetooth headset retrieving request, and acquiring headset historical position data stored by the mobile terminal;

transmitting an earphone retrieving signal to a position area corresponding to the earphone historical position data, and establishing Bluetooth connection with a Bluetooth earphone if a Bluetooth reconnection request returned by the Bluetooth earphone in response to the earphone retrieving signal is received;

detecting Bluetooth signal intensity indication of the Bluetooth connection, determining a Bluetooth connection distance based on the Bluetooth signal intensity indication, and determining a lost position of the earphone according to the Bluetooth connection distance and the historical position information.

Before the step of acquiring the earphone history location data stored in the mobile terminal in response to the bluetooth earphone retrieving request, the method further includes:

receiving a positioning request sent by the Bluetooth headset, and acquiring current position data of the mobile terminal;

and updating the historical position data of the earphones saved in the mobile terminal based on the current position data.

Wherein, the step of obtaining the earphone history position data stored in the mobile terminal in response to the Bluetooth earphone retrieving request comprises the following steps:

and determining time data corresponding to the earphone retrieving request, and extracting the earphone historical position data with the updating time closest to the time data.

The step of transmitting a headset retrieving signal to a position area corresponding to the historical headset position data, and if a bluetooth reconnection request returned by the bluetooth headset in response to the headset retrieving signal is received, establishing bluetooth connection with the bluetooth headset comprises the following steps of:

sending an earphone retrieving control instruction to an earphone bin, and controlling the earphone bin to transmit an earphone retrieving signal to a preset direction based on the earphone retrieving control instruction;

and receiving a Bluetooth reconnection request returned by the Bluetooth headset responding to the headset retrieving signal sent by the headset bin, and establishing Bluetooth connection with the Bluetooth headset.

In addition, in order to achieve the above object, the present invention further provides another bluetooth headset anti-lost method, which is applied to a bluetooth headset, and includes the following contents:

responding to the earphone retrieving signal, executing Bluetooth scanning pairing operation, and determining that a connectable mobile terminal exists;

and sending a Bluetooth reconnection request to the mobile terminal, establishing Bluetooth connection with the mobile terminal so as to enable the mobile terminal to acquire a Bluetooth connection distance, and determining the lost position of the earphone according to the Bluetooth connection distance and the historical position data of the earphone.

Wherein, the receiving the earphone retrieving signal, executing the bluetooth scanning pairing operation, and before the step of determining that the connectable mobile terminal exists, further comprises:

and when the mobile terminal is in a connection state, a positioning request is sent to the mobile terminal at regular time.

The Bluetooth headset anti-lost method further comprises the following steps:

when the first sub earphone is in a non-wearing state, acquiring the current acceleration of the first sub earphone;

and if the current acceleration falls into the gravity acceleration interval, sending a drop prompt signal to a second sub-earphone, wherein when the second sub-earphone receives the drop prompt signal, outputting drop prompt according to a preset drop prompt mode.

The Bluetooth headset anti-lost method further comprises the following steps:

when the first sub earphone is detected to be in a non-wearing state, acquiring the current acceleration of the first sub earphone;

and if the current acceleration does not fall into the gravity acceleration interval, changing the working state of the first sub-earphone into a standby state.

In addition, in order to achieve the above object, the present invention further provides an anti-lost device for bluetooth headset, wherein the device for retrieving bluetooth headset comprises: the anti-lost method comprises a memory, a processor and a Bluetooth headset anti-lost program which is stored on the memory and can run on the processor, wherein the steps of the anti-lost method for the Bluetooth headset are realized when the Bluetooth headset anti-lost program is executed by the processor.

The invention also provides a Bluetooth headset anti-lost system, which comprises:

a mobile terminal configured to establish a Bluetooth connection with a Bluetooth headset, store headset historical position data of the Bluetooth headset, and determine a headset lost position when the Bluetooth headset is lost; the Bluetooth headset is used for regularly transmitting a positioning request to the mobile terminal when being in a Bluetooth connection state with the mobile terminal, calling the infrared module to transmit a falling infrared signal to another Bluetooth headset when being in a falling state, receiving a headset retrieving signal when meeting a preset condition, starting a Bluetooth pairing process, reestablishing Bluetooth connection with the mobile terminal, and outputting a loss prompt;

the earphone bin comprises an infrared emission module and an earphone retrieving button, the earphone bin is used for charging the Bluetooth earphone, and the earphone bin is further configured to receive an earphone retrieving control instruction and/or an earphone retrieving button pressing signal sent by the mobile terminal and call the infrared emission module to emit an earphone retrieving signal;

the Bluetooth headset anti-loss system realizes the steps of the Bluetooth headset anti-loss method when being executed.

The invention also provides a computer readable storage medium, wherein a bluetooth headset anti-loss program is stored on the computer readable storage medium, and the steps of the bluetooth headset anti-loss method are realized when the bluetooth headset anti-loss program is executed by a processor.

The embodiment of the invention provides a Bluetooth headset anti-loss method, which comprises the steps of receiving a positioning request sent by a Bluetooth headset at regular time through a mobile terminal, acquiring historical position data of the headset stored by the mobile terminal, transmitting a headset retrieving signal to a position area corresponding to the historical position data of the headset, sending a Bluetooth reconnection request back by the Bluetooth headset in response to the headset retrieving signal, outputting a loss prompt according to a preset prompt mode, establishing Bluetooth connection with the Bluetooth headset, determining a Bluetooth connection distance by detecting the Bluetooth signal intensity of the Bluetooth connection, and determining the lost position of the headset according to the Bluetooth connection distance and the historical position data. The lost Bluetooth earphone is enabled to reestablish Bluetooth connection with the mobile terminal after receiving the earphone retrieving signal, and a loss prompt is sent. The lost Bluetooth headset can be found out quickly, and the beneficial effect of user experience is optimized.

Drawings

FIG. 1 is a schematic diagram of an apparatus in a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart of an embodiment of the present invention;

FIG. 3 is a schematic flow chart of another embodiment of the present invention;

FIG. 4 is a schematic flow chart of another embodiment of the present invention;

FIG. 5 is a schematic flow chart of another embodiment of the present invention;

FIG. 6 is a schematic flow chart of another embodiment of the present invention;

fig. 7 is a schematic structural diagram of the bluetooth headset anti-lost system of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The main solution of the embodiment of the invention is as follows: responding to a Bluetooth headset retrieving request, and acquiring headset historical position data stored in the mobile terminal; transmitting an earphone retrieving signal to a position area corresponding to the earphone historical position data, and if a Bluetooth reconnection request returned by the Bluetooth earphone in response to the earphone retrieving signal is received, establishing Bluetooth connection with the Bluetooth earphone; detecting the Bluetooth signal strength indication of the Bluetooth connection, determining the Bluetooth connection distance based on the Bluetooth signal strength indication, and determining the lost position of the earphone according to the Bluetooth connection distance and the historical position data.

In the prior art, with the rapid development of mobile terminal technology and chip technology, the earphone market has also gained rapid development, and a plurality of Wireless earphones appear, wherein, a TWS (True Wireless Stereo) earphone can realize the separation of a bluetooth left channel and a bluetooth right channel, and meanwhile, the tone quality is also obviously improved. But because earphone fuselage itself is small and exquisite, independent, lead to losing easily in-process when using bluetooth headset such as bluetooth headset, and difficult finding back for user experience is not good.

The invention provides a solution, a mobile terminal responds to a Bluetooth headset retrieving request, obtains historical position data of a headset stored by the mobile terminal, transmits a headset retrieving signal to a position area corresponding to the historical position data of the headset, the Bluetooth headset responds to a Bluetooth reconnection request triggered by the headset retrieving signal, establishes Bluetooth connection with a Bluetooth headset and outputs a loss prompt according to a preset prompt mode, the mobile terminal determines a Bluetooth connection distance by detecting the Bluetooth signal intensity of the Bluetooth connection, and determines the headset loss position according to the Bluetooth connection distance and the historical position data. The lost Bluetooth headset can be quickly found back, and the beneficial effect of user experience is optimized.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a bluetooth headset anti-lost device in a hardware operating environment according to an embodiment of the present invention.

As shown in fig. 1, the bluetooth headset anti-loss apparatus may include: a processor 1001, such as a CPU, a communication bus 1002, a user interface 1003, a network interface 1004, and a memory 1005. Wherein the communication bus 1002 is used for realizing connection communication among the components, the user interface 1003 can comprise a Display screen (Display) and an input unit, and the network interface 1004 can optionally comprise a standard wired interface and a wireless interface (such as a WI-FI interface). The memory 1005 may be a high-speed RAM memory or a non-volatile memory (e.g., a magnetic disk memory). The memory 1005 may alternatively be a storage device separate from the processor 1001.

Optionally, the bluetooth headset anti-lost device may further include a tuner demodulator, a return channel, a Radio Frequency (RF) circuit, a sensor, an audio circuit, and the like.

Those skilled in the art will appreciate that the hardware configuration of the bluetooth headset anti-loss device shown in fig. 1 does not constitute a limitation of the bluetooth headset anti-loss device, and may include more or less components than those shown in fig. 1, or some components in combination, or a different arrangement of components.

As shown in fig. 1, a memory 1005, which is a kind of computer-readable storage medium, may include therein an operating system, a network communication module, a user interface module, and a computer program. The operating system is a program for managing and controlling the application program of the Bluetooth headset anti-lost device and supports the operation of the application program of the Bluetooth headset anti-lost device.

In the hardware structure of the bluetooth headset anti-loss device shown in fig. 1, the network interface 1004 is mainly used for accessing a network; the user interface 1003 is mainly used for receiving related operation instructions sent by a user, and the processor 1001 may be configured to invoke a bluetooth headset anti-loss program stored in the memory 1005, and perform the following operations:

responding to a Bluetooth headset retrieving request, and acquiring headset historical position data stored by the mobile terminal;

transmitting an earphone retrieving signal to a position area corresponding to the earphone historical position data, and establishing Bluetooth connection with a Bluetooth earphone if a Bluetooth reconnection request returned by the Bluetooth earphone in response to the earphone retrieving signal is received;

detecting Bluetooth signal intensity indication of the Bluetooth connection, determining a Bluetooth connection distance based on the Bluetooth signal intensity indication, and determining a lost position of the earphone according to the Bluetooth connection distance and the historical position data of the earphone.

Further, the processor 1001 may call the bluetooth headset anti-loss program in the memory 1005, and further perform the following operations:

receiving a positioning request sent by the Bluetooth headset, and acquiring current position data of the mobile terminal;

and updating the historical position data of the earphones saved in the mobile terminal based on the current position data.

Further, the processor 1001 may call the bluetooth headset anti-loss program in the memory 1005, and further perform the following operations:

and determining time data corresponding to the earphone retrieving request, and extracting the earphone historical position data with the updating time closest to the time data.

Further, the processor 1001 may call the bluetooth headset anti-loss program in the memory 1005, and further perform the following operations:

sending an earphone retrieving control instruction to an earphone bin, and controlling the earphone bin to transmit an earphone retrieving signal to a preset direction based on the earphone retrieving control instruction;

and receiving a Bluetooth reconnection request returned by the Bluetooth headset responding to the headset retrieving signal sent by the headset bin, and establishing Bluetooth connection with the Bluetooth headset.

Based on the above hardware structure, various embodiments of the TWS headset control method of the present invention are proposed.

Referring to fig. 2, fig. 2 is a schematic flow chart of an embodiment of a bluetooth headset anti-lost method of the present invention.

In this embodiment, the bluetooth headset anti-lost method includes:

step S10: responding to a Bluetooth headset retrieving request, and acquiring headset historical position data stored by the mobile terminal;

in this embodiment, the bluetooth headset anti-loss system includes a mobile terminal, a bluetooth headset and a headset bin. Wherein, mobile terminal carries out the bluetooth for mating with bluetooth headset, carries out the intelligent terminal that the bluetooth is connected, like cell-phone, panel equipment etc.. The bluetooth headset may be a TWS headset or other bluetooth headset. The earphone cabin is a charging box for charging and placing the Bluetooth earphone.

Specifically, the mobile terminal starts Bluetooth connection, performs Bluetooth pairing with the Bluetooth headset, and establishes Bluetooth connection with the Bluetooth headset after Bluetooth pairing is successful. When the mobile terminal is in a Bluetooth connection state with the Bluetooth earphone, the mobile terminal receives a positioning request sent to the mobile terminal by the Bluetooth earphone at regular time, when the mobile terminal establishing Bluetooth connection with the Bluetooth earphone receives the positioning request sent by the Bluetooth earphone, the mobile terminal and the Bluetooth earphone are in a connection state, in an actual scene, the position of the mobile terminal is approximately consistent with the position of the Bluetooth earphone at this stage, therefore, when the mobile terminal receives the positioning request of the Bluetooth earphone, positioning is carried out based on any one mode of satellite positioning, base station positioning, WIFI auxiliary positioning and AGPS positioning, the current position data of the mobile terminal is obtained, after the mobile terminal obtains the current position data, the current position data is marked as earphone historical position data and stored in a specified storage position of the mobile terminal, the positioning request is a Bluetooth signal which is sent by the Bluetooth headset to a mobile terminal connected with the Bluetooth and carries a request for acquiring the position data of the Bluetooth headset.

In this embodiment, the mobile terminal marks the current position data as the earphone position data, and stores the earphone position data in the designated storage location. And when a positioning request transmitted again by the Bluetooth headset is received subsequently, the current position data of the mobile terminal is acquired again, the acquired current position data is updated into headset position data, and the headset position data is stored in a designated storage position in the mobile terminal.

Optionally, when the mobile terminal updates the earphone position data stored in the mobile terminal, the mobile terminal may overlay the currently acquired earphone historical position data with the previous earphone historical position data; in another embodiment, the mobile terminal may also record and update the headset historical location data chronologically according to the chronological order in which the positioning requests were received.

In this embodiment, the mobile terminal presets a preset condition that the bluetooth headset is in a lost state. When the preset condition is met, the mobile terminal judges that the Bluetooth headset is in a lost state, reads the headset position data in the appointed storage position and outputs the headset position data.

Specifically, the preset condition includes at least one of: the mobile terminal receives an earphone position data output instruction; or the mobile terminal detects that the Bluetooth headset is disconnected and does not receive the headset placement prompt transmitted by the headset bin.

Specifically, when the user finds that the bluetooth headset is lost, a bluetooth headset search request is input to the mobile terminal.

Specifically, when the bluetooth headset is disconnected from the mobile terminal due to the too far distance, the mobile terminal does not receive the headset placement prompt that the bluetooth headset is in the headset bin and is sent by the headset bin.

And when the any preset condition is met, the mobile terminal determines that the Bluetooth headset is in a lost state, receives a Bluetooth headset retrieving request sent by a user, and responds to the Bluetooth headset retrieving request. And determining time data corresponding to the earphone retrieving request, reading the earphone historical position data in the appointed storage position by the mobile terminal, acquiring the earphone historical position data with the updating time closest to the time data, namely the earphone historical position data updated last time by the mobile terminal, and outputting the earphone historical position data updated last time by the mobile terminal on a display interface. Optionally, the mobile terminal may output the last updated historical position data of the headset of the mobile terminal on the display interface in the form of a prompt bubble or a prompt box.

Step S20: transmitting an earphone retrieving signal to a position area corresponding to the earphone historical position data, and if a Bluetooth reconnection request returned by the Bluetooth earphone in response to the earphone retrieving signal is received, establishing Bluetooth connection with the Bluetooth earphone;

in this embodiment, after the mobile terminal acquires and outputs the historical position data of the earphone, the user can search for the bluetooth earphone according to the position area corresponding to the position data of the earphone output by the mobile terminal, and specifically, the mobile terminal sends an earphone retrieving signal and/or an earphone retrieving control instruction to the earphone bin according to the position area pointed by the historical position data of the earphone, and controls the mobile terminal or the earphone bin to send the earphone retrieving signal to the designated position. Specifically, this earphone is retrieved the signal and is carried control bluetooth headset and start the bluetooth scanning, triggers the bluetooth headset that loses the warning and prevents losing the signal of instruction. Alternatively, the recovery signal of the earphone can be an infrared signal because the infrared signal has the advantages of low power consumption and long range.

Specifically, when a user uses the mobile terminal to establish connection with the Bluetooth headset for the first time, if the mobile terminal is preassembled with the infrared module, the mobile terminal is controlled to match codes with the Bluetooth headset, so that the mobile terminal can transmit a headset retrieving signal to the Bluetooth headset through the infrared module.

Specifically, the mobile terminal sends an earphone retrieving signal in a specified position area pointed by the earphone historical position data when code matching is completed, and if the earphone retrieving signal is received by the bluetooth earphone, the earphone retrieving signal can enable the bluetooth earphone to start bluetooth scanning, a bluetooth reconnection request is generated, bluetooth connection is reestablished with the mobile terminal, and loss reminding is triggered according to a preset prompting mode.

Specifically, the mobile terminal receives a bluetooth pairing request of the bluetooth headset and reestablishes bluetooth connection with the bluetooth headset.

Step S30: detecting Bluetooth signal intensity indication of the Bluetooth connection, determining a Bluetooth connection distance based on the Bluetooth signal intensity indication, and determining a lost position of the earphone according to the Bluetooth connection distance and the historical position data of the earphone.

After establishing Bluetooth connection with a Bluetooth earphone, the mobile terminal detects a Bluetooth Signal Strength Indication (RSSI) of the Bluetooth connection with the Bluetooth earphone, and determines a connection distance with the Bluetooth earphone according to the Bluetooth Signal Strength Indication.

Optionally, in an embodiment, when the mobile terminal establishes a bluetooth connection with a bluetooth headset for the first time, a connection distance database is generated, where the connection distance database stores a mapping relationship between signal strength indicators of the bluetooth connection and connection distances, and each signal strength indicator corresponds to a specific connection distance. After the mobile terminal reestablishes the Bluetooth connection with the Bluetooth headset, the mobile terminal detects the Bluetooth signal intensity indication of the Bluetooth connection of the Bluetooth headset, calls the connection distance database, inputs the numerical value of the Bluetooth signal intensity indication and acquires the connection distance associated with the signal intensity indication.

Optionally, in another embodiment, the mobile terminal is internally provided with a formula for calculating the connection distance according to the signal strength indication of the bluetooth connection: d ═ 10^ ((abs (rssi) -a)/(10 ×) n)).

Wherein d is a connection distance, RSSI is a Bluetooth signal strength indication, A is a Bluetooth signal strength indication that the connection distance between the mobile terminal and the Bluetooth headset is 1m (unit: meter), and n is an environment attenuation factor.

Specifically, after the mobile terminal reestablishes the bluetooth connection with the bluetooth headset, the mobile terminal obtains the bluetooth signal strength indication of the bluetooth connection, and calculates the bluetooth connection distance between the mobile terminal and the bluetooth headset according to the calculation formula of the connection distance. And the mobile terminal determines the earphone loss position of the Bluetooth earphone according to the acquired Bluetooth connection distance.

In this embodiment, the mobile terminal or the headset bin transmits the headset retrieving signal to the specified location area in the historical headset location data, so that the bluetooth headset receiving the headset retrieving signal can start bluetooth scanning, send a bluetooth reconnection request, and perform loss reminding according to a preset prompting mode. The mobile terminal receives a Bluetooth reconnection request of the Bluetooth earphone, after the mobile terminal is connected with the Bluetooth earphone again, the mobile terminal detects a Bluetooth signal strength indication connected with the Bluetooth of the Bluetooth earphone, and acquires a Bluetooth connection distance with the Bluetooth earphone according to the signal strength indication, so that the position of the Bluetooth earphone lost carelessly is determined, and the lost Bluetooth earphone is found out quickly.

Referring to fig. 3, fig. 3 is a schematic flowchart of another embodiment of the bluetooth headset anti-lost method of the present application.

In this embodiment, the method for preventing bluetooth headset from being lost further includes:

step S01: receiving an earphone retrieving signal, executing Bluetooth scanning pairing operation, and determining that a connectable mobile terminal exists;

step S21: and sending a Bluetooth reconnection request to the mobile terminal, establishing Bluetooth connection with the mobile terminal, and outputting a loss prompt according to a preset prompt mode.

In this embodiment, after the bluetooth headset is powered on and started, the bluetooth headset and the mobile terminal start bluetooth scanning, send a bluetooth pairing request to the mobile terminal, and establish bluetooth connection with the mobile terminal.

When the Bluetooth headset is connected with the mobile terminal, the Bluetooth headset sends a positioning request to the mobile terminal at regular time according to a preset interval, so that the mobile terminal obtains current position data of the mobile terminal when receiving the positioning request, and updates historical position data of the headset according to the current position data.

Optionally, the user may accidentally lose the bluetooth headset during the use of the bluetooth headset. Specifically, when the bluetooth headset is disconnected from the mobile terminal or is in an unworn state and the bluetooth headset is not in the headset bin, it is determined that the bluetooth headset is in a lost state.

Specifically, when the bluetooth headset is in a lost state, the user outputs a bluetooth headset retrieving request to the mobile terminal and/or the headset bin, the mobile terminal and/or the headset bin outputs a headset retrieving signal according to the bluetooth headset retrieving request, and the bluetooth headset receives the headset retrieving signal transmitted by the mobile terminal or the headset bin.

Specifically, the bluetooth headset responds to the headset retrieving signal when receiving the headset retrieving signal. The Bluetooth earphone starts Bluetooth scanning, a Bluetooth reconnection request is sent to the mobile terminal within the Bluetooth scanning range, and Bluetooth connection is reestablished with the mobile terminal which is successfully paired, so that the mobile terminal can detect Bluetooth signal strength indication according to the reestablished Bluetooth connection, calculate a connection distance according to the Bluetooth signal strength indication, and determine the earphone loss position of the Bluetooth earphone.

Optionally, when receiving the headset retrieving signal, the bluetooth headset also performs loss reminding according to a preset prompting mode. Optionally, the preset prompting mode may be a buzzer sound or other prompting sound for prompting/a bluetooth headset vibration/blinking prompting.

In this embodiment, after the bluetooth connection is established with the mobile terminal through the bluetooth headset, a positioning request is periodically sent to the mobile terminal, so as to store and periodically update the historical position data of the headset in the mobile terminal. When the Bluetooth headset is in a lost state, and the headset retrieving signal is received, the headset retrieving process is executed. The Bluetooth headset starts Bluetooth scanning, sends a Bluetooth pairing request to the mobile terminal, reestablishes Bluetooth connection, and reminds the user of losing according to a preset prompting mode, so that the recovery probability of the Bluetooth headset is effectively improved.

Referring to fig. 4, fig. 4 is a schematic flowchart of another embodiment of a bluetooth headset anti-lost method according to the present application.

Based on the above embodiment, in this embodiment, the method for preventing bluetooth headset from being lost further includes:

step S40: when the first sub earphone is in a non-wearing state, acquiring the current acceleration of the first sub earphone;

step S50: if the current acceleration falls into the gravity acceleration interval, a drop prompt signal is sent to the second sub-earphone, wherein when the second sub-earphone receives the drop prompt signal, a drop prompt is output.

In this embodiment, the bluetooth headset is a TWS headset, and includes a first sub-headset and a second sub-headset. And the first sub-earphone and the second sub-earphone are internally provided with a gravity sensing module.

In particular, when the TWS headset is worn and used, the TWS headset may accidentally fall off due to its small size. Specifically, when the first sub-earphone is detected to be in a non-wearing state, the first sub-earphone calls the gravity sensing module to detect the current acceleration of the first sub-earphone.

Optionally, in order to avoid the drop reminding misjudgment and influence on user experience, the TWS headset is preset with a preset gravitational acceleration interval, and optionally, the preset gravitational acceleration interval is [9.5,10] (unit: m/s).

When first sub earphone detects current acceleration, first sub earphone judges whether this current acceleration falls into the acceleration of gravity interval, when current acceleration equals approximately to acceleration of gravity promptly, judges this first sub earphone and falls the state for the accident, triggers the warning that drops.

Specifically, when the first sub-earphone is in an accidental dropping state, the first sub-earphone sends a dropping prompt signal to the second sub-earphone. The second sub-earphone is a TWS sub-earphone in a wearing state, and when the second sub-earphone receives a drop prompt signal sent by the first sub-earphone, the second sub-earphone outputs a drop prompt according to a preset drop prompt mode. In one embodiment, the preset drop prompt mode is a voice prompt with voice content of 'earphone drop and please find back'; in another embodiment, the preset drop reminding mode is a vibration reminding mode. The user can also set a drop reminding mode in a self-defined mode.

Optionally, the first sub-headset may send the infrared signal carrying the drop prompt signal to the second sub-headset through the infrared module, and may also send the drop prompt signal to the second sub-headset through a bluetooth protocol.

In this embodiment, when the first sub-headset is in the non-wearing state, the first sub-headset calls the gravity sensing module to detect the current acceleration, and determines whether the current acceleration meets the preset condition, and when the current acceleration falls into the intermediate acceleration interval, the drop prompt signal is sent to the second sub-headset, so that when the drop prompt signal is received by the second sub-headset, the drop prompt is output according to the drop prompt mode, thereby effectively prompting the user when the TWS headset drops, and reducing the loss probability of the TWS headset.

Referring to fig. 5, fig. 5 is a schematic flowchart of another embodiment of a bluetooth headset anti-lost method according to the present application.

In this embodiment, the method for preventing the bluetooth headset from being lost further includes the following steps:

step S41: when detecting that a first sub earphone is in a non-wearing state, acquiring the current acceleration of the first sub earphone;

step S51: and if the current acceleration does not fall into the gravity acceleration interval, changing the working state of the first sub-earphone into a standby state, and not triggering drop reminding.

In this embodiment, the bluetooth headset is a TWS headset, and includes a first sub-headset and a second sub-headset. And the first sub-earphone and the second sub-earphone are internally provided with a gravity sensing module.

In particular, when the TWS headset is worn and used, the TWS headset may accidentally fall off due to its small size. Specifically, when the first sub-earphone detects that the first sub-earphone is in a non-wearing state, the first sub-earphone calls the gravity sensing module to detect the current acceleration.

Optionally, in order to determine whether the TWS headset is dropped accidentally or the user actively takes off the TWS headset, a preset dropping condition is preset in the TWS headset, and if the preset dropping condition is that the gravity sensing module detects that the current acceleration does not fall into the gravity acceleration interval, the TWS headset is determined to be in an artificially-taken-off state.

When the first sub-earphone acquires the current acceleration, the first sub-earphone judges whether the falling acceleration falls into a gravity acceleration interval or not, when the current acceleration does not fall into the gravity acceleration interval, namely when the difference between the numerical value of the current acceleration and the numerical value of the gravity acceleration is large, the first sub-earphone is judged to be in an artificial taking-off state, the working state of the first sub-earphone is changed into a standby state, and the falling reminding is not triggered.

In a specific embodiment, when the user uses the TWS headset, and when another person wants to communicate with the user using the TWS headset, the user takes off the first sub-headset to hear the sound of the other person, so that the first sub-headset is in a non-wearing state, the first sub-headset detects the current acceleration, and determines that the current acceleration is smaller than the gravitational acceleration, that is, the current acceleration does not fall within the gravitational acceleration interval, the first sub-headset changes the working state to a standby state, and does not trigger the drop reminder, thereby avoiding the occurrence of a situation that the drop reminder is mistakenly triggered.

In this embodiment, when the first sub-headset is detected to be in a non-wearing state, the current acceleration detected by the first sub-headset through the gravity sensing module is acquired, and when it is determined that the acquired current acceleration does not fall within the range of the gravity acceleration, it is determined that the first sub-headset is in an artificially-taken-off state, the working state of the first sub-headset is changed into a standby state, and a drop prompt is not triggered, so that a false alarm generated when the TWS headset is taken off by an operator is avoided, and the user experience is not affected.

Referring to fig. 6, fig. 6 is a schematic flowchart of a bluetooth headset anti-lost method according to another embodiment of the present application.

In this embodiment, the method for preventing the bluetooth headset from being lost further includes the following steps:

step S22: sending an earphone retrieving control instruction to an earphone bin, and controlling the earphone bin to transmit an earphone retrieving signal to a preset direction based on the earphone retrieving control instruction;

step S23: receiving a Bluetooth reconnection request returned by the Bluetooth earphone in response to the earphone retrieving signal sent by the earphone bin, and establishing Bluetooth connection with the Bluetooth earphone

In this embodiment, the earphone cabin is provided with the infrared module that can send the earphone retrieval signal to a plurality of directions and is used for triggering this infrared module to send the retrieval button of earphone retrieval signal. Optionally, in another embodiment, the user can also send an earphone retrieving control instruction to the earphone bin based on the mobile terminal, so as to control the earphone bin to transmit an earphone retrieving signal to the preset direction based on the earphone retrieving control instruction.

Specifically, the earphone bin receives an earphone retrieving button pressing signal sent by a user through pressing the retrieving button or an earphone retrieving control instruction sent by the mobile terminal, controls the infrared module to transmit the earphone retrieving signal to a plurality of preset directions, so that when the lost Bluetooth earphone receives the earphone retrieving signal, the Bluetooth earphone responds to the earphone retrieving signal to start Bluetooth scanning and send a Bluetooth reconnection request to the mobile terminal in the Bluetooth scanning range, and when the mobile terminal receives the Bluetooth reconnection request returned by the Bluetooth earphone responding to the earphone retrieving signal sent by the earphone bin, establishing a bluetooth connection with the bluetooth headset, and calculating a connection distance according to the reconnected bluetooth connection, thereby quickly acquiring a lost position of the bluetooth headset, optionally, the Bluetooth headset also sends loss prompt information according to preset prompt tones when receiving headset retrieving signals.

In this embodiment, through set up infrared module and get back the button in the earphone storehouse for the user can get back the signal through pressing to get back button and/or mobile terminal remote control earphone storehouse transmission earphone, with the probability of getting back after improving bluetooth headset and losing, improve user experience.

Referring to fig. 7, fig. 7 is a schematic structural diagram of the bluetooth headset anti-lost system of the present application.

Based on the bluetooth headset anti-lost method in the above embodiment of the present invention, the embodiment further provides a bluetooth headset anti-lost system.

Specifically, the bluetooth headset anti-lost system includes bluetooth headset 10, mobile terminal 20 and earphone storehouse 30:

a mobile terminal 20, wherein the mobile terminal 20 is configured to establish a bluetooth connection with a bluetooth headset 10, acquire and store headset historical position data of the bluetooth headset 10, and determine a headset loss position when the bluetooth headset 10 is lost;

the Bluetooth headset 10 is used for regularly transmitting a positioning request to the mobile terminal 20 when the Bluetooth headset 10 is in a Bluetooth connection state with the mobile terminal 20, calling an infrared module to transmit a falling infrared signal to another Bluetooth headset 10 when the Bluetooth headset 10 is in a falling state, receiving a headset retrieving signal when a preset condition is met, starting a Bluetooth pairing process, reestablishing Bluetooth connection with the mobile terminal 20, and outputting a loss prompt;

the bluetooth headset comprises a headset bin 30, wherein the headset bin 30 comprises an infrared emission module and a headset retrieving button, the headset bin 30 is used for charging the bluetooth headset 10, and the headset bin 30 is further configured to receive a headset retrieving control instruction and/or a headset retrieving button pressing signal sent by the mobile terminal 10, call the infrared emission module, and call the infrared emission module to emit a headset retrieving signal;

the bluetooth headset anti-loss system in this embodiment implements any steps in the above embodiments of the bluetooth headset anti-loss method when executed.

Further optionally, in order to achieve the above object, the present invention further provides a computer readable storage medium, where a bluetooth headset anti-loss program is stored on the readable storage medium provided in this embodiment, and the stored bluetooth headset anti-loss program can be read, interpreted and executed by a processor, so as to implement any step of the bluetooth headset anti-loss method in any of the above bluetooth headset anti-loss method embodiments.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system 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 system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better embodiment. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., ROM/RAM, magnetic disk, optical disk) as described above and includes instructions for causing a terminal device to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the present specification and drawings, or used directly or indirectly in other related fields, are included in the scope of the present invention.

Claims (11)

1. A Bluetooth headset anti-lost method is characterized by being applied to a mobile terminal and comprising the following steps:

responding to a Bluetooth headset retrieving request, and acquiring headset historical position data stored by the mobile terminal;

transmitting an earphone retrieving signal to a position area corresponding to the earphone historical position data, and if a Bluetooth reconnection request returned by the Bluetooth earphone in response to the earphone retrieving signal is received, establishing Bluetooth connection with the Bluetooth earphone;

detecting Bluetooth signal strength indication of the Bluetooth connection, determining a Bluetooth connection distance based on the Bluetooth signal strength indication, and determining a lost position of the earphone according to the Bluetooth connection distance and the historical position data of the earphone.

2. The bluetooth headset anti-lost method according to claim 1, wherein before the step of acquiring the historical location data of the headset stored in the mobile terminal in response to the bluetooth headset retrieving request, the method further comprises:

receiving a positioning request sent by the Bluetooth headset, and acquiring current position data of the mobile terminal;

and updating the historical position data of the earphones saved in the mobile terminal based on the current position data.

3. The bluetooth headset anti-loss method according to claim 2, wherein the step of acquiring the historical location data of the headset stored in the mobile terminal in response to the bluetooth headset retrieving request comprises:

and determining time data corresponding to the earphone retrieving request, and extracting the earphone historical position data with the updating time closest to the time data.

4. The method of claim 1, wherein the step of transmitting a headset retrieving signal to a location area corresponding to the historical headset location data, and if a bluetooth reconnection request returned by a bluetooth headset in response to the headset retrieving signal is received, establishing a bluetooth connection with the bluetooth headset comprises:

sending an earphone retrieving control instruction to an earphone bin, and controlling the earphone bin to transmit an earphone retrieving signal to a preset direction based on the earphone retrieving control instruction;

and receiving a Bluetooth reconnection request returned by the Bluetooth headset responding to the headset retrieving signal sent by the headset bin, and establishing Bluetooth connection with the Bluetooth headset.

5. A Bluetooth headset anti-lost method is applied to a Bluetooth headset, and comprises the following steps:

responding to the earphone retrieving signal, executing Bluetooth scanning pairing operation, and determining that a connectable mobile terminal exists;

and sending a Bluetooth reconnection request to the mobile terminal, and establishing Bluetooth connection with the mobile terminal, so that after the Bluetooth connection is established with the mobile terminal, the mobile terminal acquires a Bluetooth connection distance and determines the lost position of the earphone according to the Bluetooth connection distance and the historical position data of the earphone.

6. The bluetooth headset anti-lost method of claim 5, wherein before the step of receiving the headset retrieving signal, performing a bluetooth scanning pairing operation, and determining that there is a connectable mobile terminal, further comprising:

and when the mobile terminal is in a connection state, a positioning request is sent to the mobile terminal at regular time.

7. The bluetooth headset anti-loss method of claim 5, wherein the bluetooth headset is a TWS headset including a first sub-headset and a second sub-headset, the bluetooth headset anti-loss method further comprising:

when the first sub earphone is in a non-wearing state, acquiring the current acceleration of the first sub earphone;

and if the current acceleration is within a preset gravity acceleration interval, sending a drop prompt signal to a second sub-earphone, wherein when the second sub-earphone receives the drop prompt signal, a drop prompt is output.

8. The bluetooth headset anti-loss method of claim 5, wherein the bluetooth headset is a TWS headset including a first sub-headset and a second sub-headset, the bluetooth headset anti-loss method further comprising:

when detecting that a first sub earphone is in a non-wearing state, acquiring the current acceleration of the first sub earphone;

and if the current acceleration is not within the preset gravitational acceleration interval, changing the working state of the first sub-earphone into a standby state.

9. An anti-lost device of bluetooth headset, characterized in that the anti-lost device of bluetooth headset comprises a memory, a processor and an anti-lost program of bluetooth headset stored in the memory and operable on the processor, wherein the processor implements the steps of the anti-lost method of bluetooth headset according to any one of claims 1 to 8 when executing the anti-lost program of bluetooth headset.

10. The utility model provides a bluetooth headset prevents losing system which characterized in that, bluetooth headset includes bluetooth headset, earphone storehouse and mobile terminal:

the mobile terminal is configured to establish Bluetooth connection with a Bluetooth headset, acquire and store headset historical position data of the Bluetooth headset, and determine a headset loss position when the Bluetooth headset is lost;

the Bluetooth headset is used for regularly transmitting a positioning request to the mobile terminal when the Bluetooth headset is in a Bluetooth connection state with the mobile terminal, calling the infrared module to transmit a falling infrared signal to another Bluetooth headset when the Bluetooth headset is in a falling state, receiving a headset retrieving signal when a preset condition is met, starting a Bluetooth pairing process, reestablishing Bluetooth connection with the mobile terminal, and outputting a loss prompt;

the earphone bin comprises an infrared emission module and an earphone retrieving button, the earphone bin is used for charging the Bluetooth earphone, and the earphone bin is further configured to receive an earphone retrieving control command and/or an earphone retrieving button pressing signal sent by the mobile terminal and call the infrared emission module to emit an earphone retrieving signal;

the bluetooth headset anti-loss system when executed implements the steps of the bluetooth headset anti-loss method of any of claims 1-8.

11. A computer-readable storage medium, having stored thereon a bluetooth headset anti-loss program, which when executed by a processor implements the steps of the bluetooth headset anti-loss method of any one of claims 1 to 8.

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