WO2024077701A1 - Light-emitting control method and apparatus for wireless earphone, terminal, and wireless earphone - Google Patents

Abstract

The present application discloses a light-emitting control method and apparatus for a wireless earphone, a terminal, and a wireless earphone. The method comprises: a terminal receives an input of a user; according to the input of the user, the terminal determines the mode of a light effect of a wireless earphone connected to the terminal; the terminal determines the color of the light effect according to the input of the user; the terminal generates a light control signal for the wireless earphone according to the mode of the light effect and the color of the light effect; and the terminal sends the light control signal to the wireless earphone to control the wireless earphone to work in the mode of the light effect so as to turn on the light of the color of the light effect. According to the present invention, a terminal can perform personalized customization on the mode, the brightness and the color of the light effect of the wireless earphone according to the input of the user, so as to achieve intelligent setting of the wireless earphone, thereby improving user experience.

Description

Wireless headset light control method, device, terminal and wireless headset Technical Field

The present invention relates to the field of electronics, and in particular to a light emitting control method, device, terminal and wireless headset of a wireless headset.

Background technique

Wireless headphones are headphones that connect wirelessly. With the continuous innovation of technology, wireless headphones will gradually replace wired headphones, especially the True Wireless Stereo (TWS) market, which is growing rapidly with an annual growth rate of about 20%. In addition to the functionality of wireless headphones, more and more consumers have already regarded wireless headphones as a daily fashion accessory.

In daily life, young people who pursue fashion pay great attention to their individual street looks. They have many sets of clothes, but only one pair of headphones. Because headphones are relatively non-fast-moving consumer goods, consumers usually only choose the "most suitable" pair when they buy headphones, even if they see several headphone shapes or colors they like.

In the market, earphones have fixed colors and highly homogenized appearance. In order to achieve personalized configuration for consumers, most consumers can only do it through DIY or replace the protective cover of the charging box. Compared with replacing the entire pair of earphones, this is a relatively low-cost method.

In the related art, earphones are generally illuminated by controlling the earphone wire of wired earphones in a simple operation, and it is not possible to control the illumination of wireless earphones through a terminal, and it is not possible to implement user-specific customization of wireless earphones through the terminal.

Summary of the invention

The present invention provides a light emission control method, device, terminal and wireless headset of a wireless headset, which are used to solve the problem in the related art that the light emission control of the wireless headset cannot be realized through the terminal, and the user personalized customization of the wireless headset cannot be realized through the terminal.

According to one aspect of the present invention, a method for controlling the lighting of a wireless headset is provided, comprising: a terminal receiving a user input; the terminal determining a light effect mode of the wireless headset connected to the terminal according to the user input; the terminal determining a color of the light effect according to the user input; the terminal generating a light control signal for the wireless headset according to the light effect mode and the color of the light effect; the terminal sending the light control signal to the wireless headset to control the wireless headset to operate in the light effect mode and light up the light of the color of the light effect.

Preferably, the terminal determines the light effect mode of the wireless headset connected to the terminal according to the user input, including: the terminal obtains the light effect mode input by the user; or, the terminal determines the light effect mode according to the user's usage scenario of the wireless headset and the correspondence between the usage scenario and the light effect mode; wherein the light effect mode includes: always on, breathing, unidirectional rhythm or bidirectional rhythm, wherein the unidirectional rhythm is that the light of the wireless headset is from one end of the wireless headset to the other end, and the bidirectional rhythm is that the light of the wireless headset is from the middle to both ends of the wireless headset.

Preferably, the terminal determines the color of the light effect according to the user input, including: the terminal determines one or more colors for light control operation of the wireless headset according to a first picture taken by the user or a second picture selected by the user from the terminal storage; or, the terminal obtains one or more colors selected by the user from the preset theme colors of the terminal.

Preferably, the terminal generates a light control signal for the wireless headset according to the mode of the light effect and the color of the light effect, including: the mode of the light effect is the unidirectional rhythm or the bidirectional rhythm, and the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of lit lamp beads and the brightness level corresponding to the lit lamp beads of the multiple lamp beads in the light control signal according to the correspondence between the amplitude of the audio and the preset audio amplitude and the brightness levels of the multiple lamp beads of the wireless headset and the number of lit lamp beads; wherein the multiple lamp beads are arranged on the light control accessories of the wireless headset.

Preferably, the terminal determines the number and brightness level of the lit lamp beads among the multiple lamp beads in the light control signal according to the corresponding relationship between the amplitude of the audio and the brightness level and number of the multiple lamp beads of the wireless headset, including: the corresponding relationship between the amplitude range of the waveform graph of the multiple lamp beads and the preset audio is as follows: the amplitude range of the waveform graph corresponding to the first lamp bead among the multiple lamp beads is [0, max/N], the amplitude range of the waveform graph corresponding to the second lamp bead is (max/N, 2*max/N], ..., The amplitude range of the waveform graph of the preset audio corresponding to the Nth lamp bead among the multiple lamp beads is [(N-1)*max/N, max], where max is the preset audio amplitude value; the amplitude of the audio played by the user at the current moment belongs to [(n-1)*max/N, n*max/N], and the terminal determines that the first n lamp beads among the multiple lamp beads are lit; the terminal determines that the brightness levels of the first n-1 lamp beads of the multiple lamp beads are Z; the terminal determines that the brightness level of the nth lamp bead of the multiple lamp beads is: Q/(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment; where 1≤n≤N, n and N are natural numbers, the number of the multiple lamp beads is N, and the brightness of the multiple lamp beads can be adjusted in the range of 0 to Z.

Preferably, the wireless headset comprises: an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably coupled to the in-ear body of the wireless headset to receive the light control signal sent by the terminal; the light control accessory operates the light source on the light control accessory according to the light control signal, and the light control accessory comprises: a circuit board, a light control chip, a light source display module and a uniform light lens sheet, and the light source comprises: a light source comprises: a light-emitting diode (LED) lamp group, a light-emitting diode LED lamp group display screen, a liquid crystal LCD display screen or a plasma display.

Preferably, the in-ear body comprises: one or more first magnetic components; the light control accessory comprises: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components of the one or more first magnetic components, and repel the other first magnetic components of the one or more first magnetic components; or,

The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove; or,

The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein the one or more first buckles are respectively engaged with the corresponding first card slots of the one or more card slots, and interfere with other card slots of the one or more first card slots.

According to another aspect of the present invention, a light control method for a wireless headset is also provided, comprising: the wireless headset receives a light control signal sent by a terminal connected to the wireless headset, wherein the light control signal is generated by the terminal according to a light effect mode and a light effect color, the light effect mode is determined by the terminal according to a user input; the light effect color is determined by the terminal according to the user input; the wireless headset controls the wireless headset to operate in the light effect mode according to the light control signal, and lights up light of the color of the light effect.

Preferably, the light effect mode is the light effect mode input by the user obtained by the terminal; or, the light effect mode and brightness are determined by the terminal according to the user's usage scenario of the wireless headset and the correspondence between the usage scenario and the light effect mode; wherein the light effect modes include: always on, breathing, unidirectional rhythm or bidirectional rhythm, wherein the unidirectional rhythm is the light of the wireless headset from one end of the wireless headset to the other end, and the bidirectional rhythm is the light of the wireless headset from the middle to both ends of the wireless headset.

Preferably, the color of the light effect is one or more colors for light control operation of the wireless headset determined by the terminal based on a first picture taken by the user or a second picture selected by the user from the terminal storage; or, the color of the light effect is one or more colors selected by the user from the preset theme colors of the terminal and obtained by the terminal.

Preferably, the mode of the light effect is the unidirectional rhythm or the bidirectional rhythm, and the information in the light control signal acquired by the wireless headset is determined through the following steps: the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of lit lamp beads and the brightness level corresponding to the lit lamp beads of the multiple lamp beads in the light control signal according to the correspondence between the amplitude of the audio and the preset audio amplitude and the brightness level and the number of lit lamp beads of the wireless headset; wherein the multiple lamp beads are arranged on the light control accessories of the wireless headset.

Preferably, the number and brightness level of the lit lamp beads among the multiple lamp beads in the light control signal received by the wireless headset include: the corresponding relationship is as follows: the preset audio amplitude range corresponding to the first lamp bead among the multiple lamp beads is [0, max/N], the preset audio amplitude range corresponding to the second lamp bead is (max/N, 2*max/N], ..., the preset audio amplitude range corresponding to the Nth lamp bead among the multiple lamp beads is ((N-1)*max/N, max], where max is the preset audio amplitude value; the amplitude of the audio played by the user at the current moment belongs to ((n-1)*max/N, n*max/N], the terminal determines that the first n lamp beads among the multiple lamp beads are lit; the terminal determines that the brightness level of the first n-1 lamp beads of the multiple lamp beads is Z; the terminal determines that the brightness level of the nth lamp bead among the multiple lamp beads is: Q/

(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment; where 1≤n≤N, n and N are natural numbers, the number of the multiple lamp beads is N, and the brightness adjustment range of the multiple lamp beads is 0 to Z.

Preferably, the wireless headset comprises: an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably connected to the in-ear body of the wireless headset to receive the light control signal sent by the terminal; the light control accessory operates the light source on the light control accessory according to the light control signal, and the light control accessory comprises: a circuit board, a light control chip, a light source display module and a uniform light lens sheet, and the light source comprises: a light emitting diode (LED) light group, a light emitting diode (LED) light group display screen, a liquid crystal LCD display screen or a plasma display.

Preferably, the in-ear body comprises: one or more first magnetic components; the light control accessory comprises: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components of the one or more first magnetic components, and repel the other first magnetic components of the one or more first magnetic components; or,

The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove; or,

The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein the one or more first buckles are respectively engaged with the corresponding first card slots of the one or more card slots, and interfere with other card slots of the one or more first card slots.

Preferably, the first earphone in the wireless earphone is a master earphone, and the second earphone is a slave earphone; the first earphone sends a synchronization instruction to the second earphone at a preset time interval;

The first earphone and the second earphone light up or go out at the same time according to the synchronization instruction.

According to one aspect of the present invention, there is further provided a terminal, comprising: a first receiving module for receiving user input; a first determining module for determining a light effect mode of a wireless headset connected to the terminal according to the user input; a second determining module for determining a color of the light effect according to the user input; a generating module for generating a light control signal of the wireless headset according to the light effect mode and the color of the light effect; and a sending module for sending the light control signal to the wireless headset to control the wireless headset to operate in the light effect mode and light up the color of the light effect.

Preferably, the second determination module includes: a first acquisition module, used to obtain the light effect pattern input by the user; or, a third determination module, used to determine the light effect pattern according to the user's usage scenario of the wireless headset and the correspondence between the usage scenario and the light effect pattern; wherein the light effect pattern includes: constant light, breathing, unidirectional rhythm or bidirectional rhythm, wherein the unidirectional rhythm is that the light of the wireless headset is from one end of the wireless headset to the other end, and the bidirectional rhythm is that the light of the wireless headset is from the middle to both ends of the wireless headset.

Preferably, the second determination module includes: a fourth determination module, used to determine one or more colors for light control operation of the wireless headset based on a first picture taken by the user or a second picture selected by the user from the terminal storage; or, a second acquisition module, used to acquire one or more colors selected by the user from the preset theme colors of the terminal.

Preferably, the generating module includes: an analyzing module, which is used to analyze the audio played by the user to obtain the amplitude of the audio played by the user when the mode of the light effect is the unidirectional rhythm or the bidirectional rhythm; a fifth determining module, which is used to determine the number of lit lamp beads and the brightness level corresponding to the lit lamp beads of the multiple lamp beads in the light control signal according to the corresponding relationship between the amplitude of the audio and the preset audio amplitude and the brightness level of the multiple lamp beads of the wireless headset and the number of lit lamp beads; wherein the multiple lamp beads are arranged on the light control accessories of the wireless headset.

Preferably, the fifth determination module is used to determine that the first n lamp beads among the multiple lamp beads are lit when the amplitude of the audio played by the user at the current moment belongs to ((n-1)*max/N, n*max/N];

The fifth determination module is used to determine that the brightness level of the first n-1 lamp beads of the plurality of lamp beads is Z;

The fifth module is used to determine the brightness level of the nth lamp bead of the plurality of lamp beads: Q/

(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment; the corresponding relationship is as follows: the preset audio amplitude range corresponding to the first lamp bead among the multiple lamp beads is [0, max/N], the preset audio amplitude range corresponding to the second lamp bead is (max/N, 2*max/N], ..., the preset audio amplitude range corresponding to the Nth lamp bead among the multiple lamp beads is ((N-1)*max/N, max], where max is the preset audio amplitude value; where 1≤n≤N, n and N are natural numbers, the number of the multiple lamp beads is N, and the brightness of the multiple lamp beads can be adjusted in the range of 0 to Z.

Preferably, the wireless headset comprises: an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably connected to the in-ear body of the wireless headset to receive the light control signal sent by the terminal; the light control accessory operates the light source on the light control accessory according to the light control signal, and the light control accessory comprises: a circuit board, a light control chip, a light source display module and a uniform light lens sheet, and the light source comprises: a light emitting diode (LED) light group, a light emitting diode (LED) light group display screen, a liquid crystal LCD display screen or a plasma display.

Preferably, the in-ear body comprises: one or more first magnetic components; the light control accessory comprises: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components of the one or more first magnetic components, and repel the other first magnetic components of the one or more first magnetic components; or,

The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove; or,

The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein the one or more first buckles are respectively engaged with the corresponding first card slots of the one or more card slots, and interfere with other card slots of the one or more first card slots.

According to yet another aspect of the present invention, there is provided a wireless headset, comprising: a second receiving module, for receiving a light control signal sent by a terminal connected to the wireless headset, wherein the light control signal is generated by the terminal according to a light effect mode and a light effect color, the light effect mode is determined by the terminal according to a user input; the light effect color is determined by the terminal according to the user input; and a control module, for controlling the wireless headset to operate in the light effect mode and to light up the light of the color of the light effect according to the light control signal.

Preferably, the light effect mode is the light effect mode input by the user obtained by the terminal; or, the light effect mode is the light effect mode determined by the terminal according to the user's usage scenario of the wireless headset and the correspondence between the usage scenario and the light effect mode. The light effect modes include: constant light, breathing, unidirectional rhythm or bidirectional rhythm, wherein the unidirectional rhythm is that the light of the wireless headset is from one end of the wireless headset to the other end, and the bidirectional rhythm is that the light of the wireless headset is from the middle to both ends of the wireless headset.

Preferably, the color of the light effect is the color of the light control operation of the wireless headset determined by the terminal based on a first picture taken by the user or a second picture selected by the user from the terminal storage; or, the color of the light effect is the color selected by the user from the preset theme colors of the terminal obtained by the terminal.

Preferably, the mode of the light effect is the unidirectional rhythm or the bidirectional rhythm, and the information in the light control signal acquired by the terminal is determined in the following manner: the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of lit lamp beads and the brightness level corresponding to the lit lamp beads of the multiple lamp beads in the light control signal according to the correspondence between the amplitude of the audio and the preset audio amplitude and the brightness level and the number of lit lamp beads of the wireless headset; wherein the multiple lamp beads are arranged on the light control accessories of the wireless headset.

Preferably, the number and brightness level of the lit lamp beads among the multiple lamp beads in the light control signal received by the wireless headset include: the corresponding relationship is as follows: the preset audio amplitude range corresponding to the first lamp bead among the multiple lamp beads is [0, max/N], the preset audio amplitude range corresponding to the second lamp bead is (max/N, 2*max/N], ..., the preset audio amplitude range corresponding to the Nth lamp bead among the multiple lamp beads is ((N-1)*max/N, max], where max is the preset audio amplitude value; the amplitude of the audio played by the user at the current moment belongs to ((n-1)*max/N, n*max/N], the terminal determines that the first n lamp beads among the multiple lamp beads are lit; the terminal determines that the brightness level of the first n-1 lamp beads of the multiple lamp beads is Z; the terminal determines that the brightness level of the nth lamp bead of the multiple lamp beads is: Q/(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the audio played by the user at the current moment. The amplitude value of the frequency sampling; wherein 1≤n≤N, n and N are natural numbers, the number of the plurality of lamp beads is N, and the brightness of the plurality of lamp beads can be adjusted in the range of 0 to Z.

Preferably, the wireless headset comprises: an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably connected to the in-ear body of the wireless headset to receive the light control signal sent by the terminal; the light control accessory operates the light source on the light control accessory according to the light control signal, and the light control accessory comprises: a circuit board, a light control chip, a light source display module and a uniform light lens sheet, and the light source comprises: an LED light group, an LED light group display screen, a liquid crystal LCD display screen or a plasma display.

Preferably, the in-ear body comprises: one or more first magnetic components; the light control accessory comprises: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components of the one or more first magnetic components, and repel the other first magnetic components of the one or more first magnetic components; or,

The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove; or,

The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein the one or more first buckles are respectively engaged with the corresponding first card slots of the one or more card slots, and interfere with other card slots of the one or more first card slots.

Preferably, the first earphone in the wireless earphone is a master earphone, and the second earphone is a slave earphone; the first earphone sends a synchronization instruction to the second earphone at a preset time interval; the first earphone and the second earphone light up or go out at the same time according to the synchronization instruction.

According to yet another aspect of the present invention, a computer-readable storage medium is provided. The computer-readable storage medium includes computer instructions. When the computer instructions are executed on an electronic device, the electronic device executes the above method.

According to yet another aspect of the present invention, a computer program product is provided. When the computer program product is run on a computer, the computer is enabled to execute the above method.

The present invention can personalize the light effect mode and color of the wireless headset according to the user's input through the terminal, thereby realizing the intelligent setting of the wireless headset and improving the user experience.

BRIEF DESCRIPTION OF THE DRAWINGS

The drawings described herein are used to provide a further understanding of the present invention and constitute a part of this application. The exemplary embodiments of the present invention and their descriptions are used to explain the present invention and do not constitute an improper limitation of the present invention. In the drawings:

FIG1 is a first flow chart of a light emission control method of a wireless headset according to an embodiment of the present invention;

FIG2 is a second flow chart of the light emission control method of the wireless headset according to an embodiment of the present invention;

FIG3 is a schematic diagram of synchronization of wireless headphones according to an embodiment of the present invention;

FIG4 is a structural block diagram of a terminal according to an embodiment of the present invention;

FIG5 is a block diagram of a preferred structure of a terminal according to an embodiment of the present invention;

FIG6 is a block diagram of a wireless headset according to an embodiment of the present invention;

7 is a schematic diagram of a user interface of a terminal according to an embodiment of the present invention;

FIG. 8 is a schematic diagram of a wireless headset according to an embodiment of the present invention.

Detailed ways

It should be noted that, in the absence of conflict, the embodiments and features in the embodiments of the present application can be combined with each other. The present invention will be described in detail below with reference to the accompanying drawings and in combination with the embodiments.

This embodiment provides a light emission control method for a wireless headset. FIG1 is a first flow chart of the light emission control method for a wireless headset according to an embodiment of the present invention. As shown in FIG1 , the method includes the following steps S102 to S110.

Step S102: the terminal receives user input.

Step S104: the terminal determines the light effect mode of the wireless headset connected to the terminal according to the user input.

Step S106: The terminal determines the color of the light effect according to the user input.

Step S108: The terminal generates a light control signal for the wireless headset according to the light effect mode and the light effect color.

In step S110, the terminal sends a light control signal to the wireless headset to control the wireless headset to operate in a light effect mode and light up the light of the light effect color.

Through the above embodiments, the terminal can personalize the light effect mode and color of the wireless headset according to the user's input, thereby realizing the intelligent setting of the wireless headset and improving the user experience.

As a preferred implementation, step S104 can be performed in the following two ways:

Mode 1: The terminal obtains the light effect mode input by the user.

For method one, the user can input on the terminal APP and select the light effect mode required by the user. For example, the light effect mode can be set on the mobile phone APP to be always on, breathing unidirectional rhythm or bidirectional rhythm, where the unidirectional rhythm is the light of the wireless headset from one end of the wireless headset to the other end, and the bidirectional rhythm is the light of the wireless headset from the middle to both ends of the wireless headset. The user uses the APP corresponding to the wireless headset on the terminal to select the mode he likes. Referring to Figure 7, the user can select the light effect mode on the APP interface of the terminal.

Method 2: The terminal determines the mode and effect of the light effect according to the user's usage scenario of the wireless headset and the correspondence between the usage scenario and the mode of the light effect.

This method can be customized according to the user's usage scenario, for example, when running outdoors, one-way rhythm or two-way rhythm is used, and when working, a breathing mode is used to remind colleagues using wireless headphones that they are in a meeting. It should be noted that those skilled in the art can set the corresponding scenes and modes according to actual needs, which is only used for example and does not constitute a limitation to this application.

As another preferred implementation, step S106 can be performed in the following two ways:

Method 1: The terminal can determine one or more colors of the wireless headset light control signal based on the first picture taken by the user or the second picture selected by the user from the terminal storage. As shown in Figure 7, the camera can be called to take pictures through the camera icon in the upper right corner of the terminal APP operation interface.

In this method, the terminal can use the pictures taken by the default camera of the mobile phone system or the pictures in the mobile phone gallery, and then select the colors in the pictures to achieve personalized color settings. It should be noted that in this method, there may be multiple colors in the picture selected by the terminal, and multiple colors can be determined according to different color selection algorithms. It should be noted that the terminal can select colors with different area proportions in the picture, or colors with different color saturation in the picture. It should be noted that technicians in this field can select multiple colors according to the algorithm.

Method 2: The terminal can obtain the color selected by the user from the preset theme colors of the terminal. In this method, the terminal can select one or more colors (a group of colors) from the default colors of the wireless headset APP. For example, the mobile phone APP can preset 30 groups of colors as preset schemes, and the user selects a group of colors from them (refer to Figure 7, under the color menu, select the default preset theme color of the APP). For example: the wireless headset adopts a plurality of lamp beads, the number of the plurality of lamp beads is N, and the light control signal includes a group of colors, and the group of colors may include N colors. The above two methods not only realize the personalized customization of colors, but also realize that users can change the colors in the mobile phone APP to adapt to different usage scenarios or different moods. In operation, if the user changes the color of the wireless headset in the APP, and the terminal is not playing music at this time, the terminal can play a preset audio prompt that the color has changed. In actual operation, the color of the lamp beads can adopt the RGB color mode.

As a preferred implementation, when the light effect mode is constant or breathing, the terminal can determine the default brightness of the lamp beads for light control operation, or can perform light control operation according to the brightness input by the user. As shown in Figure 7, on the light effect selection pull bar, the user can select the brightness of the light control of the wireless headset.

As another preferred embodiment, when the light effect mode is one-way rhythm or two-way rhythm, step S108 may include: parsing the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of lit lamp beads of the multiple lamp beads in the light control signal and the brightness level corresponding to the lit lamp beads according to the corresponding relationship between the amplitude of the audio played by the user and the preset audio amplitude and the brightness level of the multiple lamp beads of the wireless headset and the number of lit lamp beads; wherein the multiple lamp beads are set on the light control accessories of the wireless headset. In this preferred embodiment, the lit lamp beads and the brightness level are determined by the amplitude of the audio, thereby realizing the brightness control of the wireless headset.

Preferably, the terminal determines the number and brightness level of the middle-lit lamp beads of the multiple lamp beads in the light control signal according to the corresponding relationship between the amplitude of the audio played by the user and the preset audio amplitude and the brightness level and number of the multiple lamp beads of the wireless headset, including:

The corresponding relationship is as follows: the preset audio amplitude range corresponding to the first lamp bead among the multiple lamp beads is [0, max/N], the preset audio amplitude range corresponding to the second lamp bead is (max/N, 2*max/N], ..., the preset audio amplitude range corresponding to the Nth lamp bead among the multiple lamp beads is ((N-1)*max/N, max], where max is the preset audio amplitude value;

The amplitude of the audio played by the user at the current moment belongs to ((n-1)*max/N, n*max/N], and the terminal determines that the first n lamp beads among the multiple lamp beads are lit;

The terminal determines that the brightness level of the first n-1 lamp beads of the plurality of lamp beads is Z;

The terminal determines the brightness level of the nth lamp bead of the multiple lamp beads as: Q/(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

Wherein 1≤n≤N, n and N are natural numbers, the number of the plurality of lamp beads is N, and the brightness level adjustment range of the plurality of lamp beads is 0 to Z.

For example, a wireless headset has 6 lamp beads, the brightness level of the lamp beads is 0 to 255, Z is 255, max = 255*6, then the amplitude range of the waveform corresponding to the first lamp bead is [0, 255], and the amplitude value of the audio sample played by the user at the current moment is 256, then the first lamp bead is on, and the brightness level is 255, the second lamp bead is on, and the brightness level is 1.

In implementation, the wireless headset includes: an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably connected to the in-ear body of the wireless headset to receive a light control signal sent by a terminal; the light control accessory operates the light source on the light control accessory according to the light control signal, and the light control accessory may include: a circuit board, a light control chip, a light source display module and a uniform light lens sheet, and the light source includes: a light emitting diode (LED) lamp group, an LED lamp group display screen, a liquid crystal LCD display screen or a plasma Plasma display, wherein the LED lamp group may include but not limited to ordinary LEDs of different package sizes, different package methods, different power sizes, different color temperatures, single-color and multi-color, mini LED, micro LED, RGB LED), and the light emitting diode LED lamp group display screen may include but not limited to LED, OLED, Mini LED, Micro LED and quantum dot light emitting diodes (Quantum Dot Light Emitting Diodes, referred to as QLED).

In this method, the light control accessories are detachably combined with the in-ear body. In the related technology, the wireless earphones are integrated. The light effect function of the wireless earphones will be improved as the hardware is improved. By combining the light control module as a detachable component with the in-ear body, the wireless earphones can achieve light effect upgrades at a lower cost and improve the user experience.

As shown in FIG8 , the wireless headset may include: an in-ear body 82, a light control accessory 84, and a shell accessory 86. The shell accessory may be combined with the light control accessory. In implementation, the in-ear body and the light control accessory may also be used as a whole and matched with a separate shell accessory. The shell accessory may adopt a variety of shell surfaces. Preferably, the surface of the shell accessory can be customized by the user.

As a preferred implementation of this method, the detachable method can be as follows:

Method 1: The in-ear body may include: one or more first magnetic components; the light control accessory or the shell accessory includes: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components in the one or more first magnetic components, and repel the other first magnetic components in the one or more first magnetic components.

Method 2: The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove.

Method three: The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein, the one or more first buckles are respectively engaged with the corresponding first card slots in the one or more card slots, and interfere with other card slots in the one or more first card slots.

This preferred method realizes the detachable installation of the light control accessory. It should be noted that the electrical and communication connection between the light control module and the in-ear body can be achieved by a PIN pin.

This embodiment provides a light emission control method for a wireless headset. FIG2 is a second flow chart of the light emission control method for a wireless headset according to an embodiment of the present invention. As shown in FIG2 , the method includes the following steps S202 to S204.

In step S202, the wireless headset receives a light control signal sent by a terminal connected to the wireless headset, wherein the light control signal is generated by the terminal according to a light effect mode and color, the light effect mode is determined by the terminal according to user input, and the light effect color is determined by the terminal according to user input.

Step S204: the wireless headset controls the wireless headset to work in the mode according to the light control signal, and lights up the color light.

Through the above embodiments, the wireless headset can be controlled by the terminal side to realize personalized customization of the light effect mode and color of the wireless headset according to the user's input on the terminal side, thereby realizing intelligent setting of the wireless headset and improving the user experience.

As a preferred implementation, the light effect mode of the wireless headset can be determined according to the following two methods:

Method 1: The terminal obtains a light effect mode according to the input of the user.

For method one, the user can input on the terminal APP and select the light effect mode required by the user. For example, the light effect mode can be set on the mobile phone APP to be always on, breathing unidirectional rhythm or bidirectional rhythm, where the unidirectional rhythm is the light of the wireless headset from one end of the wireless headset to the other end, and the bidirectional rhythm is the light of the wireless headset from the middle to both ends of the wireless headset. The user uses the APP corresponding to the wireless headset on the terminal to select the mode he likes. Referring to Figure 7, the user can select the light effect mode on the APP interface of the terminal.

Method 2: The terminal determines the light effect mode according to the user's usage scenario of the wireless headset and the correspondence between the usage scenario and the light effect mode.

This method can be customized to the user's usage scenario, for example, when running outdoors, the rhythm mode is used, and when working, the breathing mode is used to remind colleagues using wireless headphones that they are in a meeting. This is only used for example and does not constitute a limitation of this application.

As another preferred implementation, the color of the light effect of the wireless headset can be determined by:

Method 1: The terminal can determine one or more colors of the wireless headset light control signal according to the first picture taken by the user or the second picture selected from the terminal storage. As shown in Figure 7, the camera can be called to take pictures through the camera icon in the upper right corner of the terminal APP operation interface.

In this method, the terminal can use the pictures taken by the default camera of the mobile phone system or the pictures in the mobile phone gallery, and then select the colors in the pictures to achieve personalized color settings. It should be noted that in this method, there may be multiple colors in the picture selected by the terminal, and multiple colors can be determined according to different color selection algorithms. It should be noted that the terminal can select colors with different area proportions in the picture, or colors with different color saturation in the picture. It should be noted that technicians in this field can select multiple colors according to the algorithm.

Method 2: The terminal can obtain the color selected by the user from the preset theme colors of the terminal. In this method, the terminal can select one or more (a group of) colors from the default colors of the wireless headset APP. For example, the mobile phone APP can preset 30 groups of colors as preset schemes, and the user selects a group of colors from them (refer to Figure 7, under the color menu, select the default preset theme color of the APP). For example: the wireless headset adopts a plurality of lamp beads, the number of the plurality of lamp beads is N, and the light control signal includes a group of colors, and the group of colors may include N colors. The above two methods not only realize the personalized customization of colors, but also realize that users can change the colors in the mobile phone APP to adapt to different usage scenarios or different moods. In operation, if the user changes the color of the wireless headset in the APP, and the terminal is not playing music at this time, the terminal can play a preset audio prompt that the color has changed. In actual operation, the color of the lamp beads can adopt the RGB color mode.

As a preferred implementation, when the light effect mode is constant or breathing, the terminal can determine the default brightness of the lamp beads for light control operation, or can perform light control operation according to the brightness input by the user. As shown in Figure 7, on the light effect selection pull bar, the user can select the brightness of the light control of the wireless headset.

As another preferred implementation, when the light effect mode is one-way rhythm or two-way rhythm, the light control signal that the terminal can obtain includes: parsing the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of lit lamp beads of the multiple lamp beads in the light control signal and the brightness level corresponding to the lit lamp beads according to the corresponding relationship between the amplitude of the audio played by the user and the preset audio amplitude and the brightness level of the multiple lamp beads of the wireless headset and the number of lit lamp beads; wherein the multiple lamp beads are set on the light control accessories of the wireless headset. This preferred embodiment determines the lit lamp beads and the brightness level by the amplitude of the audio, thereby realizing the brightness control of the wireless headset.

Preferably, the terminal determines the number and brightness level of the middle-lit lamp beads of the multiple lamp beads in the light control signal according to the corresponding relationship between the amplitude of the audio played by the user and the preset audio amplitude and the brightness level and number of the multiple lamp beads of the wireless headset, including:

The corresponding relationship is as follows: the preset audio amplitude range corresponding to the first lamp bead among the multiple lamp beads is [0, max/N], the preset audio amplitude range corresponding to the second lamp bead is (max/N, 2*max/N], ..., the preset audio amplitude range corresponding to the Nth lamp bead among the multiple lamp beads is ((N-1)*max/N, max], where max is the preset audio amplitude value;

The amplitude of the audio played by the user at the current moment belongs to ((n-1)*max/N, n*max/N], and the terminal determines that the first n lamp beads among the multiple lamp beads are lit;

The terminal determines that the brightness level of the first n-1 lamp beads of the plurality of lamp beads is Z;

The terminal determines the brightness level of the nth lamp bead of the multiple lamp beads as: Q/(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

Wherein 1≤n≤N, n and N are natural numbers, the number of the plurality of lamp beads is N, and the brightness levels of the plurality of lamp beads can be adjusted in the range of 0 to Z.

For example, a wireless headset has 6 lamp beads, and the brightness level of the lamp beads is 0 to 255, max = 255*6, then the amplitude range of the waveform corresponding to the first lamp bead is [0, 255]. The amplitude value of the audio sample played by the user at the current moment is 256, then the first lamp bead is on, and the brightness level is 255, the second lamp bead is on, and the brightness level is 1.

In implementation, the wireless headset may include: an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably coupled to the in-ear body of the wireless headset to receive a light control signal sent by a terminal; the light control accessory operates the light source on the light control accessory according to the light control signal, and the light source includes: a light emitting diode (LED) lamp group, an LED lamp group display, a liquid crystal LCD display or a plasma display, wherein the LED lamp group may include but is not limited to ordinary LEDs of different package sizes, different package methods, different power sizes, different color temperatures, single-color or multi-color, mini LED, micro LED, RGB LED), and the light emitting diode LED lamp group display may include but is not limited to LED, OLED, Mini LED, Micro LED and quantum dot light emitting diodes (Quantum Dot Light Emitting Diodes, referred to as QLED).

In this method, the light control accessories are detachably combined with the in-ear body. In the related technology, the wireless earphones are integrated. The light effect function of the wireless earphones will be improved as the hardware is improved. By combining the light control module as a detachable component with the in-ear body, the wireless earphones can achieve light effect upgrades at a lower cost and improve the user experience.

As a preferred embodiment of this method, the in-ear body may include: one or more first magnetic parts; the light control accessory or shell accessory includes: one or more second magnetic parts respectively attracted to the one or more first magnetic parts; wherein the one or more second magnetic parts are respectively attracted to the corresponding first magnetic parts in the one or more first magnetic parts, and repel the other first magnetic parts in the one or more first magnetic parts. This preferred method realizes the detachable installation of the light control accessory. It should be noted that the electrical and communication connection between the light control module and the in-ear body can be in the form of a PIN pin.

In the implementation, the light control accessory is detachably connected to the in-ear body of the wireless headset to receive the light control signal sent by the terminal; the light control accessory operates the light source on the light control accessory according to the light control signal, and the light control accessory may include: a circuit board, a light control chip, a light source display module and a uniform light lens sheet, and the light source includes: a light emitting diode (LED) lamp group, an LED lamp group display, a liquid crystal LCD display or a plasma Plasma display, wherein the LED lamp group may include but is not limited to ordinary LEDs, mini LEDs, micro LEDs, RG LEDs of different package sizes, different package methods, different power sizes, different color temperatures, single-color or multi-color B LED), the light emitting diode LED light group display screen can include but not limited to LED, OLED, Mini LED, Micro LED and quantum dot light emitting diode (Quantum Dot Light Emitting Diodes, referred to as QLED). In this way, the light control accessories are detachably combined with the in-ear body. In the related technology, the wireless earphones are integrated. The light effect function of the wireless earphones will be improved as the hardware is improved. The experience will also be improved. The light control module is combined with the in-ear body as a detachable component, which can realize the light effect upgrade of the wireless earphones at a lower cost and improve the user experience.

As a preferred implementation of this method, the detachable method can be as follows:

Method 1: The in-ear body may include: one or more first magnetic components; the light control accessory or the shell accessory includes: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components in the one or more first magnetic components, and repel the other first magnetic components in the one or more first magnetic components.

Method 2: The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove.

Method three: the in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein, the one or more first buckles are respectively engaged with corresponding first card slots in the one or more card slots, and interfere with other card slots in the one or more first card slots.

This preferred method realizes the detachable installation of the light control accessory. It should be noted that the electrical and communication connection between the light control module and the in-ear body can be achieved by a PIN pin.

As another preferred embodiment, the first earphone in the wireless earphone is the master earphone, and the second earphone is the slave earphone; the first earphone sends a synchronization instruction to the second earphone at a preset time interval; the first earphone and the second earphone light up or go out at the same time according to the synchronization instruction. FIG3 is a schematic diagram of the synchronization of a wireless earphone according to an embodiment of the present invention. As shown in FIG3, the wireless earphone has two independent earphones: a first earphone 32 and a second earphone 34, which respectively receive the light control signal of the terminal through two light control accessories. After working for a long time, there may be a situation of asynchronous operation. The preferred embodiment can achieve synchronization of the two earphones of the wireless earphone when working.

This embodiment provides a terminal. FIG. 4 is a structural block diagram of a terminal according to an embodiment of the present invention. As shown in FIG. 4 , the structure is described in detail below.

A first receiving module 42 is used to receive user input; a first determining module 44 is connected to the first receiving module 42, and is used to determine the light effect mode of the wireless headset connected to the terminal according to the user input received by the first receiving module 42; a second determining module 46 is connected to the first receiving module 42, and is used to determine the color of the light effect according to the user input received by the first receiving module 42; a generating module 48 is connected to the first determining module 44 and the second determining module 46, and is used to generate a light control signal of the wireless headset according to the light effect mode and the color of the light effect; a sending module 40 is connected to the generating module 48, and is used to send the light control signal generated by the generating module 48 to the wireless headset, so as to control the wireless headset to operate in the light effect mode and light up the light of the color of the light effect.

Preferably, the first determination module 44 includes: a first acquisition module 442, used to obtain the light effect pattern input by the user; or, a third determination module 444, used to determine the light effect pattern according to the user's usage scenario of the wireless headset and the correspondence between the usage scenario and the light effect pattern; wherein the light effect patterns include: constant light, breathing, unidirectional rhythm or bidirectional rhythm, wherein the unidirectional rhythm is the light of the wireless headset from one end of the wireless headset to the other end, and the bidirectional rhythm is the light of the wireless headset from the middle to both ends of the wireless headset.

Preferably, the second determination module 46 includes: a fourth determination module 462, used to determine the color for light control operation of the wireless headset based on a first picture taken by the user or a second picture selected by the user from the terminal storage; or, a second acquisition module 464, used to obtain the color selected by the user from the preset theme colors of the terminal.

Preferably, the generating module 48 comprises: an analyzing module 482, which is used to analyze the audio played by the user when the mode is one-way rhythm or two-way rhythm, and obtain the amplitude of the audio played by the user; a fifth determining module 484, which is used to determine the number of lit lamp beads of the multiple lamp beads in the light control signal and the brightness level corresponding to the lit lamp beads according to the corresponding relationship between the amplitude of the audio played by the user and the preset audio amplitude and the brightness level of the multiple lamp beads of the wireless headset and the number of lit lamp beads; wherein the multiple lamp beads are arranged on the light control accessory of the wireless headset

Preferably, the fifth determination module 484 is used to determine that the first n lamp beads among the multiple lamp beads are lit when the amplitude of the audio played by the user at the current moment belongs to ((n-1)*max/N, n*max/N].

The fifth determination module 484 is used to determine that the brightness level of the first n-1 lamp beads of the multiple lamp beads is Z; the fifth module is used to determine that the brightness level of the nth lamp bead of the multiple lamp beads is: Q/(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment; the corresponding relationship is as follows: the preset audio amplitude range corresponding to the first lamp bead among the multiple lamp beads is [0, max/N], the preset audio amplitude range corresponding to the second lamp bead is (max/N, 2*max/N],..., the preset audio amplitude range corresponding to the Nth lamp bead among the multiple lamp beads is ((N-1)*max/N, max], where max is the preset audio amplitude value; where 1≤n≤N, n and N are natural numbers, the number of the multiple lamp beads is N, and the brightness of the multiple lamp beads can be adjusted in the range of 0 to Z.

Preferably, the wireless headset comprises: an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably connected to the in-ear body of the wireless headset to receive a light control signal sent by the terminal; the light control accessory operates the light source on the light control accessory according to the light control signal, and the light control accessory comprises: a circuit board, a light control chip, a light source display module and a uniform light lens sheet, and the light source comprises: a light emitting diode (LED) lamp group, an LED lamp group display screen, a liquid crystal LCD display screen or a plasma display. Among them, the LED lamp group may include but is not limited to ordinary LEDs of different package sizes, different package methods, different power sizes, different color temperatures, single-color and multi-color, mini LED, micro LED, RGB LED), and the light emitting diode LED lamp group display screen may include but is not limited to LED, OLED, Mini LED, Micro LED and quantum dot light emitting diodes (Quantum Dot Light Emitting Diodes, referred to as QLED).

Preferably, the above-mentioned detachable structure can be implemented in the following manner:

Method 1: The in-ear body includes: one or more first magnetic components; the light control accessories include: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components in the one or more first magnetic components, and repel the other first magnetic components in the one or more first magnetic components.

Method 2: The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove.

Method three: The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein, the one or more first buckles are respectively engaged with the corresponding first card slots in the one or more card slots, and interfere with other card slots in the one or more first card slots.

This embodiment provides a wireless headset. FIG6 is a structural block diagram of the wireless headset according to the embodiment of the present invention. As shown in FIG6 , the structure is described in detail below.

The second receiving module 62 is used to receive a light control signal sent by the terminal connected to the wireless headset, wherein the light control signal is generated by the terminal according to the light effect mode and the light effect color, the light effect mode is determined by the terminal according to the user input; the light effect color is determined by the terminal according to the user input;

The control module 64 is connected to the second receiving module 62 and is used to control the wireless headset to work in a mode and light up a color according to the light control signal.

Preferably, the light effect mode is the light effect mode input by the user obtained by the terminal; or, the light effect mode is determined by the terminal according to the user's usage scenario of the wireless headset and the correspondence between the usage scenario and the light effect mode. The light effect mode may include: constant light, breathing, unidirectional rhythm or bidirectional rhythm, wherein the unidirectional rhythm is the light of the wireless headset from one end of the wireless headset to the other end, and the bidirectional rhythm is the light of the wireless headset from the middle to both ends of the wireless headset. Preferably, the color of the light effect is the color of the wireless headset light control signal determined by the terminal according to the first picture taken by the user or the second picture selected from the terminal storage; or, the color of the light effect is the color selected by the terminal from the preset colors obtained by the user from the terminal.

Preferably, the light effect mode is unidirectional rhythm or bidirectional rhythm, and the information in the light control signal obtained by the terminal is determined in the following manner: the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user; the terminal determines the number of lit lamp beads and the brightness level corresponding to the lit lamp beads of the multiple lamp beads in the light control signal according to the correspondence between the amplitude of the audio played by the user and the preset audio amplitude and the brightness level and the number of lit lamp beads of the wireless headset; wherein, the multiple lamp beads are arranged on the light control accessories of the wireless headset.

Preferably, the number and brightness level of the lit lamp beads in the light control signal received by the wireless headset include: the corresponding relationship is as follows: the preset audio amplitude range corresponding to the first lamp bead among the multiple lamp beads is [0, max/N], the preset audio amplitude range corresponding to the second lamp bead is (max/N, 2*max/N], ..., the preset audio amplitude range corresponding to the Nth lamp bead among the multiple lamp beads is ((N-1)*max/N, max], where max is the preset audio amplitude value; the audio played by the user at the current moment The amplitude of the audio belongs to ((n-1)*max/N, n*max/N], the terminal determines that the first n lamp beads among the multiple lamp beads are lit; the terminal determines that the brightness level of the first n-1 lamp beads of the multiple lamp beads is Z; the terminal determines that the brightness level of the nth lamp bead of the multiple lamp beads is: Q/(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment; where 1≤n≤N, n and N are natural numbers, the number of the multiple lamp beads is N, and the brightness of the multiple lamp beads can be adjusted in the range of 0 to Z.

Preferably, the wireless headset comprises: an in-ear body, a light control accessory and a shell accessory. The light control accessory is detachably connected to the in-ear body of the wireless headset to receive a light control signal sent by the terminal; the light control accessory operates the light source on the light control accessory according to the light control signal, and the light control accessory comprises: a circuit board, a light control chip, a light source display module and a uniform light lens sheet, and the light source comprises: a light emitting diode (LED) lamp group, an LED lamp group display screen, a liquid crystal LCD display screen or a plasma display. The LED lamp group may include but is not limited to ordinary LEDs with different package sizes, different package methods, different power sizes, different color temperatures, single-color and multi-color LEDs, mini LEDs, micro LEDs, RGB LEDs), and the light emitting diode LED lamp group display screen may include but is not limited to LEDs, OLEDs, Mini LEDs, Micro LEDs and quantum dot light emitting diodes (Quantum Dot Light Emitting Diodes, referred to as QLEDs).

Preferably, the above-mentioned detachable structure can be implemented in the following manner:

Method 1: The in-ear body includes: one or more first magnetic components; the light control accessories include: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components in the one or more first magnetic components, and repel the other first magnetic components in the one or more first magnetic components.

Method 2: The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove.

Method three: The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein, the one or more first buckles are respectively engaged with the corresponding first card slots in the one or more card slots, and interfere with other card slots in the one or more first card slots.

Preferably, the first earphone in the wireless earphone is a master earphone, and the second earphone is a slave earphone; the first earphone sends a synchronization instruction to the second earphone at a preset time interval; the first earphone and the second earphone light up or go out at the same time according to the synchronization instruction.

An embodiment of the present application also provides a computer-readable storage medium, in which a computer program code is stored. When the above-mentioned processor executes the computer program code, the electronic device executes the relevant method steps in Figure 1 or Figure 2 to implement the method in the above-mentioned embodiment.

The embodiment of the present application also provides a computer program product, when the computer program product is run on a computer, the computer executes the relevant method steps in Figure 1 or Figure 2 to implement the method in the above embodiment. Among them, the terminal, computer-readable storage medium or computer program product provided in the embodiment of the present application are used to execute the corresponding method provided above, so the beneficial effects that can be achieved can refer to the beneficial effects in the corresponding method provided above, and will not be repeated here.

Through the description of the above implementation mode, the technicians in the relevant field can clearly understand that for the convenience and simplicity of description, only the division of the above-mentioned functional modules is used as an example. In practical applications, the above-mentioned function distribution can be completed by different functional modules as needed, that is, the internal structure of the device is divided into different functional modules to complete all or part of the functions described above. In the several embodiments provided in this application, it should be understood that the disclosed device and method can be implemented in other ways. For example, the device embodiment described above is only schematic, for example, the division of the modules or units is only a logical function division, and there may be other division methods in actual implementation, such as multiple units or components can be combined or integrated into another device, or some features can be ignored or not executed. Another point is that the mutual coupling or direct coupling or communication connection shown or discussed can be through some interfaces, indirect coupling or communication connection of devices or units, which can be electrical, mechanical or other forms. The unit described as a separate component may or may not be physically separated, and the component displayed as a unit may be a physical unit or multiple physical units, that is, it can be located in one place, or it can be distributed in multiple different places. Some or all of the units can be selected according to actual needs to achieve the purpose of the scheme of this embodiment. In addition, each functional unit in each embodiment of the present application can be integrated in a processing unit, or each unit can exist physically alone, or two or more units can be integrated in one unit. The above-mentioned integrated unit can be implemented in the form of hardware or in the form of a software functional unit. If the integrated unit is implemented in the form of a software functional unit and sold or used as an independent product, it can be stored in a readable storage medium. Based on such an understanding, the technical solution of the embodiment of the present application is essentially or the part that contributes to the prior art or all or part of the technical solution can be embodied in the form of a software product, which is stored in a storage medium, including several instructions to enable a device (which can be a single-chip microcomputer, chip, etc. or a processor (processor)) to perform all or part of the steps of the method described in each embodiment of the present application. The aforementioned storage medium includes: various media that can store program codes, such as a U disk, a mobile hard disk, a ROM, a RAM, a disk, or an optical disk.

It should be noted that, in this article, relational terms such as "first" and "second" are only used to distinguish one entity or operation from another entity or operation, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Moreover, the terms "comprise", "include" or any other variants thereof are intended to cover non-exclusive inclusion, so that a process, method, article or device including a series of elements includes not only those elements, but also other elements not explicitly listed, or also includes elements inherent to such process, method, article or device. In the absence of further restrictions, an element defined by the sentence "comprises a ..." does not exclude the presence of other identical elements in the process, method, article or device including the element.

In summary, through the above embodiments and their preferred implementation modes, a method, device, terminal and wireless headset for controlling the light emission of wireless headsets are provided, which can personalize the mode, brightness and color of the wireless headsets according to the user's input, thereby realizing the intelligent setting of the wireless headsets and improving the user experience.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention. For those skilled in the art, the present invention may have various modifications and variations. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention shall be included in the protection scope of the present invention.

Claims (32)

1. A method for controlling light emission of a wireless headset, comprising:

   The terminal receives input from the user;

   The terminal determines, according to the user input, a light effect mode of the wireless headset connected to the terminal;

   The terminal determines the color of the light effect according to the input of the user;

   The terminal generates a light control signal for the wireless headset according to the mode of the light effect and the color of the light effect;

   The terminal sends the light control signal to the wireless headset to control the wireless headset to work in the light effect mode and light up the light of the color of the light effect.
2. The method according to claim 1, wherein the terminal determines the light effect mode of the wireless headset connected to the terminal according to the user input, comprising:

   The terminal obtains the light effect mode input by the user; or,

   The terminal determines the light effect mode according to a usage scenario of the wireless headset by the user and a correspondence between the usage scenario and the light effect mode;

   Among them, the light effect modes include: always on, breathing, unidirectional rhythm or bidirectional rhythm, wherein the unidirectional rhythm is that the light of the wireless headset is from one end of the wireless headset to the other end, and the bidirectional rhythm is that the light of the wireless headset is from the middle to both ends of the wireless headset.
3. The method according to claim 1, wherein the terminal determines the color of the light effect according to the user input, comprising:

   The terminal determines one or more colors for performing light control operation on the wireless headset according to a first picture taken by the user or a second picture selected by the user from storage in the terminal; or

   The terminal obtains one or more colors selected by the user from preset theme colors of the terminal.
4. The method according to claim 2 is characterized in that the terminal generates the light control signal of the wireless headset according to the mode of the light effect and the color of the light effect, comprising:

   The mode of the light effect is the unidirectional rhythm or the bidirectional rhythm, and the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user;

   The terminal determines the number of the lit lamp beads of the multiple lamp beads in the light control signal and the brightness level corresponding to the lit lamp beads according to the corresponding relationship between the amplitude of the audio played by the user and the amplitude of the preset audio and the brightness levels of the multiple lamp beads of the wireless headset and the number of lit lamp beads;

   Wherein, the multiple lamp beads are arranged on the light control accessories of the wireless headset.
5. The method according to claim 4 is characterized in that the terminal determines the number and brightness level of the middle-lit lamp beads of the plurality of lamp beads in the light control signal according to the corresponding relationship between the amplitude of the audio and the brightness level and number of the plurality of lamp beads of the wireless headset, respectively, comprising:

   The correspondence between the amplitude ranges of the waveform diagrams of the preset audio and the multiple lamp beads of the multiple lamp beads is as follows: the preset audio amplitude range corresponding to the first lamp bead of the multiple lamp beads is [0, max/N], the preset audio amplitude range corresponding to the second lamp bead is (max/N, 2*max/N], ..., the preset audio amplitude range corresponding to the Nth lamp bead of the multiple lamp beads is ((N-1)*max/N, max], where max is the preset audio amplitude value;

   The amplitude of the audio played by the user at the current moment belongs to [(n-1)*max/N, n*max/N], and the terminal determines that the first n lamp beads among the multiple lamp beads are lit;

   The terminal determines that the brightness level of the first n-1 lamp beads of the plurality of lamp beads is Z;

   The terminal determines that the brightness level of the nth lamp bead of the plurality of lamp beads is: Q/(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

   Wherein 1≤n≤N, n and N are natural numbers, the number of the plurality of lamp beads is N, and the brightness levels of the plurality of lamp beads can be adjusted in the range of 0 to Z.
6. The method according to any one of claims 1 to 5, characterized in that

   The wireless headset comprises: an in-ear body, a light control accessory and a shell accessory;

   Wherein, the light control accessory is detachably connected to the in-ear body to receive the light control signal sent by the terminal;

   The light control accessory operates the light source on the light control accessory according to the light control signal. The light control accessory includes: a circuit board, a light control chip, a light source display module and a uniform light lens. The light source includes: a light emitting diode (LED) light group, a light emitting diode (LED) light group display screen, a liquid crystal (LCD) display screen or a plasma display.
7. The method according to claim 6, characterized in that

   The in-ear body includes: one or more first magnetic components; the light control accessory includes: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components of the one or more first magnetic components, and repel the other first magnetic components of the one or more first magnetic components; or,

   The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove; or,

   The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein the one or more first buckles are respectively engaged with the corresponding first card slots of the one or more card slots, and interfere with other card slots of the one or more first card slots.
8. A method for controlling light emission of a wireless headset, comprising:

   The wireless headset receives a light control signal sent by a terminal connected to the wireless headset, wherein the light control signal is generated by the terminal according to a light effect mode and a light effect color, the light effect mode is determined by the terminal according to a user input, and the light effect color is determined by the terminal according to the user input;

   The wireless headset controls the wireless headset to operate in the light effect mode according to the light control signal, and lights up the light of the color of the light effect.
9. The method according to claim 8, characterized in that

   The light effect mode is the light effect mode of the user input acquired by the terminal; or,

   The light effect mode is the light effect mode determined by the terminal according to the usage scenario of the wireless headset by the user and the correspondence between the usage scenario and the light effect mode.

   Among them, the light effect modes include: always on, breathing, unidirectional rhythm or bidirectional rhythm, wherein the unidirectional rhythm is that the light of the wireless headset is from one end of the wireless headset to the other end, and the bidirectional rhythm is that the light of the wireless headset is from the middle to both ends of the wireless headset.
10. The method according to claim 8, characterized in that

    The color of the light effect is one or more colors for light control operation of the wireless headset determined by the terminal based on a first picture taken by the user or a second picture selected by the user from the terminal storage; or, the color of the light effect is one or more colors selected by the user from the preset theme colors of the terminal obtained by the terminal.
11. The method according to claim 8, characterized in that

    The light effect mode is the unidirectional rhythm or the bidirectional rhythm, and the information in the light control signal acquired by the wireless headset is determined by the following steps:

    The terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user;

    The terminal determines the number of the lit lamp beads of the multiple lamp beads in the light control signal and the brightness level corresponding to the lit lamp beads according to the corresponding relationship between the amplitude of the audio played by the user and the preset audio amplitude and the brightness level and the number of lit lamp beads of the wireless headset;

    Wherein, the multiple lamp beads are arranged on the light control accessories of the wireless headset.
12. The method according to claim 11, characterized in that

    The number and brightness level of the lit lamp beads among the plurality of lamp beads in the light control signal received by the wireless headset include:

    The correspondence between the plurality of lamp beads of the plurality of lamp beads and the preset audio amplitude is as follows: the preset audio amplitude corresponding to the first lamp bead of the plurality of lamp beads is in the range of [0, max/N], the preset audio amplitude corresponding to the second lamp bead is in the range of (max/N, 2*max/N], ..., the preset audio amplitude corresponding to the Nth lamp bead of the plurality of lamp beads is in the range of ((N-1)*max/N, max], where max is the preset audio amplitude value;

    The amplitude of the audio played by the user at the current moment belongs to [(n-1)*max/N, n*max/N], and the terminal determines that the first n lamp beads among the multiple lamp beads are lit;

    The terminal determines that the brightness level of the first n-1 lamp beads of the plurality of lamp beads is Z;

    The terminal determines that the brightness level of the nth lamp bead of the plurality of lamp beads is: Q/(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

    Wherein 1≤n≤N, n and N are natural numbers, the number of the plurality of lamp beads is N, and the brightness of the plurality of lamp beads can be adjusted in the range of 0 to Z.
13. The method according to any one of claims 8 to 12, characterized in that

    The wireless headset comprises: an in-ear body, a light control accessory and a shell accessory;

    The light control accessory is detachably connected to the in-ear body of the wireless headset to receive the light control signal sent by the terminal;

    The light control accessory operates the light source on the light control accessory according to the light control signal. The light control accessory includes: a circuit board, a light control chip, a light source display module and a uniform light lens. The light source includes: a light emitting diode (LED) light group, a light emitting diode (LED) light group display screen, a liquid crystal (LCD) display screen or a plasma display.
14. The method according to claim 13, characterized in that

    The in-ear body includes: one or more first magnetic components; the light control accessory or the shell accessory includes: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components of the one or more first magnetic components, and repel the other first magnetic components of the one or more first magnetic components; or,

    The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove; or,

    The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein the one or more first buckles are respectively engaged with the corresponding first card slots of the one or more card slots, and interfere with other card slots of the one or more first card slots.
15. The method according to any one of claims 8 to 13, characterized in that

    The first earphone in the wireless earphone is a master earphone, and the second earphone is a slave earphone;

    The first earphone sends a synchronization instruction to the second earphone at a preset time interval;

    The first earphone and the second earphone light up or go out at the same time according to the synchronization instruction.
16. A terminal, characterized by comprising:

    A first receiving module, used to receive user input;

    A first determining module, configured to determine a light effect mode of the wireless headset connected to the terminal according to the user input;

    A second determination module, used to determine the color of the light effect according to the user input;

    A generating module, configured to generate a light control signal of the wireless headset according to the light effect mode and the light effect color;

    The sending module is used to send the light control signal to the wireless headset, control the wireless headset to work in the light effect mode, and light up the light of the color.
17. The terminal according to claim 16, wherein the first determining module comprises:

    A first acquisition module is used to acquire the light effect mode input by the user; or

    A third determination module, configured to determine the light effect mode according to a usage scenario of the wireless headset by the user and a correspondence between the usage scenario and the light effect mode;

    Among them, the light effect modes include: always on, breathing, unidirectional rhythm or bidirectional rhythm, wherein the unidirectional rhythm is that the light of the wireless headset is from one end of the wireless headset to the other end, and the bidirectional rhythm is that the light of the wireless headset is from the middle to both ends of the wireless headset.
18. The terminal according to claim 16, wherein the second determining module comprises:

    A fourth determination module is used to determine the color for performing light control operation on the wireless headset according to the first picture taken by the user or the second picture selected by the user from the terminal storage; or

    The second acquisition module is used to acquire the color selected by the user from the preset theme colors of the terminal.
19. The terminal according to claim 17, characterized in that the generating module comprises:

    an analysis module, used for analyzing the audio played by the user to obtain the amplitude of the audio played by the user when the light effect mode is the unidirectional rhythm or the bidirectional rhythm;

    a fifth determination module, configured to determine the number of the plurality of lamp beads that are lit and the brightness level corresponding to the lamp beads that are lit in the light control signal according to the corresponding relationship between the amplitude of the audio and the preset audio amplitude and the brightness levels of the plurality of lamp beads of the wireless headset and the number of the lamp beads that are lit;

    Wherein, the multiple lamp beads are arranged on the light control accessories of the wireless headset.
20. The terminal according to claim 19, characterized in that

    The fifth determination module is used to determine that the first n lamp beads among the plurality of lamp beads are lit when the amplitude of the audio played by the user at the current moment belongs to ((n-1)*max/N, n*max/N];

    The fifth determination module is used to determine that the brightness level of the first n-1 lamp beads of the plurality of lamp beads is Z;

    The fifth module is used to determine the brightness level of the nth lamp bead of the multiple lamp beads as: Q/(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

    The correspondence between the plurality of lamp beads of the plurality of lamp beads and the preset audio amplitude is as follows: the preset audio amplitude corresponding to the first lamp bead of the plurality of lamp beads is in the range of [0, max/N], the preset audio amplitude corresponding to the second lamp bead is in the range of (max/N, 2*max/N], ..., the preset audio amplitude corresponding to the Nth lamp bead of the plurality of lamp beads is in the range of ((N-1)*max/N, max], where max is the preset audio amplitude value;

    Wherein 1≤n≤N, n and N are natural numbers, the number of the plurality of lamp beads is N, and the brightness of the plurality of lamp beads can be adjusted in the range of 0 to Z.
21. The terminal according to claim 19, characterized in that

    The light control accessory is detachably connected to the in-ear body of the wireless headset to receive the light control signal sent by the terminal;

    The light control accessory operates the light source on the light control accessory according to the light control signal. The light control accessory includes: a circuit board, a light control chip, a light source display module and a uniform light lens. The light source includes: a light emitting diode (LED) light group, a light emitting diode (LED) light group display screen, a liquid crystal (LCD) display screen or a plasma display.
22. The terminal according to any one of claims 16 to 21, characterized in that

    The wireless headset comprises: an in-ear body, a light control accessory and a shell accessory;

    Wherein, the in-ear body includes: one or more first magnetic components; the light control accessory includes: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components of the one or more first magnetic components, and repel the other first magnetic components of the one or more first magnetic components; or,

    The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove; or,

    The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein the one or more first buckles are respectively engaged with the corresponding first card slots of the one or more card slots, and interfere with other card slots of the one or more first card slots.
23. A wireless headset, comprising:

    a second receiving module, configured to receive a light control signal sent by a terminal connected to the wireless headset, wherein the light control signal is generated by the terminal according to a light effect mode and a light effect color, the light effect mode is determined by the terminal according to a user input, and the light effect color is determined by the terminal according to the user input;

    The control module is used to control the wireless headset to work in the light effect mode and light up the light of the color according to the light control signal.
24. A wireless headset, comprising:

    a second receiving module, configured to receive a light control signal sent by a terminal connected to the wireless headset, wherein the light control signal is generated by the terminal according to a light effect mode and a light effect color, the light effect mode is determined by the terminal according to a user input, and the light effect color is determined by the terminal according to the user input;

    The control module is used to control the wireless headset to work in the light effect mode and light up the light of the color according to the light control signal.
25. The wireless headset according to claim 23, characterized in that

    The color of the light effect is the color of the light control operation of the wireless headset determined by the terminal based on a first picture taken by the user or a second picture selected by the user from the terminal storage; or, the color of the light effect is the color selected by the user from the preset theme colors of the terminal obtained by the terminal.
26. The wireless headset according to claim 24, characterized in that

    The mode of the light effect is the unidirectional rhythm or the bidirectional rhythm, and the information in the light control signal acquired by the terminal is determined in the following manner: the terminal analyzes the audio played by the user to obtain the amplitude of the audio played by the user;

    The terminal determines the number of the lit lamp beads of the multiple lamp beads in the light control signal and the brightness level corresponding to the lit lamp beads according to the corresponding relationship between the amplitude of the audio and the preset audio amplitude and the brightness level and the number of lit lamp beads of the wireless headset;

    Wherein, the multiple lamp beads are arranged on the light control accessories of the wireless headset.
27. The wireless headset according to claim 26, characterized in that

    The number and brightness level of the lit lamp beads among the plurality of lamp beads in the light control signal received by the wireless headset include:

    The correspondence between the plurality of lamp beads of the plurality of lamp beads and the preset audio amplitude is as follows: the preset audio amplitude corresponding to the first lamp bead of the plurality of lamp beads is in the range of [0, max/N], the audio amplitude corresponding to the second lamp bead is in the range of (max/N, 2*max/N], ..., the preset audio amplitude corresponding to the Nth lamp bead of the plurality of lamp beads is in the range of ((N-1)*max/N, max], where max is the preset audio amplitude value;

    The amplitude of the audio played by the user at the current moment belongs to [(n-1)*max/N, n*max/N], and the terminal determines that the first n lamp beads among the multiple lamp beads are lit;

    The terminal determines that the brightness level of the first n-1 lamp beads of the plurality of lamp beads is Z;

    The terminal determines that the brightness level of the nth lamp bead of the plurality of lamp beads is: Q/(max/N)*Z, where Q is the remainder of M divided by max/N, and M is the amplitude value of the audio sample played by the user at the current moment;

    Wherein 1≤n≤N, n and N are natural numbers, the number of the multiple lamp beads is N, and the brightness of the multiple lamp beads can be adjusted in the range of 0 to Z.
28. The wireless headset according to any one of claims 23 to 27, characterized in that:

    The wireless headset comprises: an in-ear body, a light control accessory and a shell accessory;

    The light control accessory is detachably connected to the in-ear body of the wireless headset to receive the light control signal sent by the terminal;

    The light control accessory operates the light source on the light control accessory according to the light control signal. The light control accessory includes: a circuit board, a light control chip, a light source display module and a uniform light lens. The light source includes: a light emitting diode (LED) light group, a light emitting diode (LED) light group display screen, a liquid crystal (LCD) display screen or a plasma display.
29. The wireless headset according to claim 28, characterized in that

    The in-ear body includes: one or more first magnetic components; the light control accessory includes: one or more second magnetic components respectively attracted to the one or more first magnetic components; wherein the one or more second magnetic components are respectively attracted to the corresponding first magnetic components of the one or more first magnetic components, and repel the other first magnetic components of the one or more first magnetic components; or,

    The in-ear body includes a first groove, and the light control accessory includes a first boss corresponding to the first groove; or,

    The in-ear body includes: one or more first card slots; the light control accessory includes: one or more first buckles respectively engaged with the one or more first card slots; wherein the one or more first buckles are respectively engaged with the corresponding first card slots of the one or more card slots, and interfere with other card slots of the one or more first card slots.
30. The wireless headset according to any one of claims 23 to 27, characterized in that:

    The first earphone in the wireless earphone is a master earphone, and the second earphone is a slave earphone;

    The first earphone sends a synchronization instruction to the second earphone at a preset time interval;

    The first earphone and the second earphone light up or go out at the same time according to the synchronization instruction.
31. A computer-readable storage medium, characterized in that the computer-readable storage medium includes computer instructions, and when the computer instructions are executed on an electronic device, the electronic device executes the method as described in any one of claims 1 to 7 or claims 8 to 15.
32. A computer program product, characterized in that when the computer program product is run on a computer, the computer is caused to execute the method according to any one of claims 1 to 7 or claims 8 to 15.

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