CN116996803B - Multifunctional TWS Bluetooth headset and control and adjustment method thereof - Google Patents

Abstract

The invention discloses a multifunctional TWS Bluetooth headset and a control and adjustment method thereof. The control and adjustment method of the multifunctional TWS Bluetooth headset comprises the following steps: connecting a mobile device; providing a default touch action for a user, wherein the touch action refers to a starting action corresponding to different functions; recording touch information of a user, and analyzing the touch information to obtain personalized touch actions; updating the default touch action into personalized touch action, and simultaneously reserving the default touch action; starting personalized touch control actions corresponding to the action states according to the TWS Bluetooth headset action states detected in real time; and performing accuracy inspection on the started touch information, and judging and adjusting various personalized touch actions according to the accuracy. According to the method and the device for customizing the touch actions, the personalized touch actions are analyzed according to the historical touch information of the default touch actions used by the user to replace the default touch actions, so that personalized customization of the touch actions is realized, and the problem of limited personalized customization is solved.

Description

Multifunctional TWS Bluetooth headset and control and adjustment method thereof

Technical Field

The invention relates to the technical field of Bluetooth headphones, in particular to a multifunctional TWS Bluetooth headphone and a control and adjustment method thereof.

Background

TWS (True Wi re l ess Stereo) Bluetooth headset is a wireless headset technology, and it is separated left and right sides earphone through wireless Bluetooth connection, has eliminated traditional earphone's wired connection, has provided more convenient and free audio experience. Each earphone includes a separate speaker and microphone to allow the user to wirelessly listen to music, receive calls, and communicate speech. TWS Bluetooth headset has light design and convenient portability, and users do not need to worry about winding and limitation of headset wires. At the same time, TWS technology also supports both monaural and binaural modes, which a user can choose to use on one side, enjoy the perception of the surrounding environment, or use to get a more immersive music experience.

There are some existing implementation technologies available for the multifunctional TWS bluetooth headset and the control and adjustment method thereof. For example, noise cancellation techniques may reduce interference of ambient noise with audio by using noise reduction chips or algorithms; the voice assistant technology can integrate an intelligent voice assistant to realize voice control and interaction through the earphone; in addition, the touch control and gesture recognition technology can realize operations such as volume adjustment, song cutting and the like through an earphone touch pad or a specific gesture; and the expansion and upgrading of the earphone function can be realized by means of Bluetooth protocol, earphone firmware updating and the like.

For example, publication No.: the invention patent of CN113473287A discloses a novel Bluetooth headset output sound pressure level control method, which comprises the following steps: the analysis filter bank module divides the voice signal filtering analysis received by the voice input module into a plurality of channels, the WDRC gain module carries out sound pressure level judgment calculation, gain smoothing and gain output on voice in each channel, and the comprehensive filter bank module carries out filtering recombination on the voice signal after gain in each channel and transmits the voice signal to the voice output module for output.

For example, publication No.: the invention patent of CN110262768A discloses a method for adjusting the relative balance of left and right ear sound volumes and a Bluetooth headset, comprising the following steps: the Bluetooth headset comprises a main headset and a slave headset, wherein the main headset and the slave headset are respectively provided with an antenna, the main headset and the slave headset are respectively in communication connection with the mobile equipment through the antennas, the main headset and the slave headset comprise a control device, a microphone, a loudspeaker, a power supply and an LED lamp, and the control device is electrically connected with the antennas, the microphone, the loudspeaker, the power supply and the LED lamp.

However, in the process of implementing the technical scheme of the embodiment of the application, the inventor discovers that the above technology has at least the following technical problems:

In the prior art, the existing TWS earphone control and adjustment method is usually preset and cannot be customized in a personalized way. For example, a user may wish to associate a particular operation with a particular function, and thus the prior art has the problem of limited personalized customization.

Disclosure of Invention

The embodiment of the application solves the problem of limited personalized customization in the prior art by providing the multifunctional TWS Bluetooth headset and the control and adjustment method thereof, and realizes the personalized customization of the touch control action of the Bluetooth headset.

The embodiment of the application provides a multifunctional TWS Bluetooth headset which comprises a system management module, a play management module, a touch data processing module, a wireless communication module and an auxiliary module, wherein the system management module is respectively connected with the play management module, the touch data processing module, the wireless communication module and the auxiliary module, the touch data processing module is respectively connected with the play management module and the wireless communication module, and the wireless communication module is connected with the auxiliary module; the system management module: the system is used for storing a power supply, providing a CPU processing data function and installing and replacing a new system; the play management module: the Bluetooth sound box is used for providing a Bluetooth sound box, playing the playing content through the Bluetooth sound box, simultaneously providing a knob to control sound of the sound box of the TWS Bluetooth earphone, and playing the playing content in a form of H I F I without loss sound quality; the touch data processing module is used for: the touch control system comprises a high-definition touch screen, a touch control device and a touch control device, wherein the high-definition touch screen is used for receiving touch data of a user and analyzing corresponding touch control actions and functions corresponding to the touch control actions according to the touch data; the wireless communication module: the system is used for supporting a user to send a call by using an M I C microphone and supporting the user to download software, insert a card to talk and communicate video through WI F I networking; the auxiliary module: the voice control system is used for receiving voice control information of the user on the functions through the voice intelligent assistant and starting the corresponding voice control functions.

The embodiment of the application provides a control and regulation method of a multifunctional TWS Bluetooth headset, which comprises the following steps: s1, a TWS Bluetooth headset is connected with mobile equipment; s2, providing a default touch action for a user by the TWS Bluetooth headset, wherein the touch action refers to a starting action corresponding to different functions; s3, the TWS Bluetooth headset records touch information of the user and analyzes the touch information to obtain personalized touch actions; s4, updating the default touch actions into personalized touch actions by the TWS Bluetooth headset, and reserving the default touch actions; s5, starting personalized touch actions corresponding to the action states according to the action states of the TWS Bluetooth earphone detected in real time; and S6, the TWS Bluetooth headset performs accuracy check on the started touch information, and judges and adjusts various personalized touch actions according to accuracy.

Further, the touch information includes each touch action, a function corresponding to each touch action, historical usage data of the function corresponding to each touch action, and gyroscope data.

Further, the specific process of analyzing the personalized touch action is as follows: acquiring historical use data of touch actions corresponding to different functions, and preprocessing the data; extracting the use times Q _i corresponding to each touch action, the holding time length T _Qi and the total use time length T' of each use of the corresponding function of the touch action from the preprocessed historical data, wherein i is the number of the touch action, i=1, 2, and m are the total types of the touch action; calculating the effective use times alpha of the touch actions according to the use times Q _i corresponding to the touch actions, the holding time length T _Qi and the total use time length T' of each use of the corresponding function of the touch actions; counting the effective use times of each touch control action, sequencing the effective use times from high to low, and sequencing the effective use timesNot including the/>The touch control action is recorded as a common action, and the/>To/>The touch operation is described as a general operation, and the/>After that do not include the/>The touch control action is marked as an unusual action; acquiring each touch action in common actions, and respectively extracting gyroscope data corresponding to the starting moment and the using period of each touch action; analyzing the gyroscope data to obtain comprehensive individual use characteristics of each function corresponding to the touch action; and changing the numerical value of the touch action according to the comprehensive individual use characteristics of each touch action, storing the changed touch action as an individual touch action, and replacing the default touch action by using the individual touch action.

Further, the specific calculation process of the effective use times alpha of the touch action is as follows: wherein Δt represents a standard use duration of a preset function corresponding to each touch operation, and δ ₁ and δ ₂ are weight factors of a set standard use time difference and an actual use time difference, respectively.

Further, the specific process of obtaining the comprehensive individual use characteristics of the touch actions corresponding to the functions is as follows: acquiring gyroscope data, wherein the gyroscope data comprise inclination angles of TWS Bluetooth headphones at each function starting momentAnd the inclination acceleration epsilon _i, further comprising the inclination angle/>, of the TWS Bluetooth headset at each moment during the use of each functionTilt acceleration ε' _ik, tilt angle duration total length/>Tilt acceleration duration total duration/>Where k is the recording time number, i.e. the inclination angle/>, of the TWS Bluetooth headset will be recorded once at recording time number k during function useAnd a tilt acceleration epsilon' _ik, k=1, 2,..n; the comprehensive personality usage characteristics psi _i corresponding to each function of the touch action are calculated according to a formula, and the specific calculation formula of the comprehensive personality usage characteristics psi _i is as follows: Wherein phi _i is the individual usage characteristic corresponding to the inclination angle, E _i is the individual usage characteristic corresponding to the inclination acceleration, and lambda ₁ and lambda ₂ are the set influence factors of the inclination angle and the inclination acceleration respectively,/> And/>The influence factors of the total duration of the inclination angle and the total duration of the inclination acceleration are respectively; the specific calculation formula of the personality usage characteristic phi _i corresponding to the inclination angle is as follows: wherein/> To start the instantaneous maximum tilt angle,/>For the minimum value of the starting moment inclination angle, gamma ₁ is a weight factor of the set starting moment inclination angle difference, and lambda ₁ is a correction factor of the individual use characteristic corresponding to the set inclination angle; the specific calculation formula of the individual usage characteristic E _i corresponding to the inclination acceleration is as follows: Wherein epsilon ^max is the maximum value of the starting instant tilting acceleration, epsilon ^min is the minimum value of the starting instant tilting acceleration, gamma ₂ is the set weighting factor of the starting instant tilting acceleration difference, and lambda ₂ is the correction factor of the individual use characteristic corresponding to the set tilting acceleration.

Further, the touch control action corresponding to the action state of the TWS Bluetooth headset action state starting action state detected in real time specifically refers to: setting corresponding personalized starting inclination angles according to the personalized use characteristics corresponding to the inclination angles, and setting corresponding personalized starting inclination accelerations according to the personalized use characteristics corresponding to the inclination accelerations; monitoring the action state of the TWS Bluetooth headset in real time through a gyroscope in the TWS Bluetooth headset, wherein the action state comprises an inclination angle and an inclination acceleration; when the real-time monitored inclination angle of the TWS Bluetooth headset accords with the personalized starting inclination angle, and the real-time monitored inclination acceleration of the TWS Bluetooth headset accords with the personalized starting inclination acceleration, the action state is automatically started to correspond to the personalized touch action, and meanwhile, the function corresponding to the personalized touch action is started.

Further, the accuracy test for the touch information after the start specifically refers to: after each time a function is started by a personalized touch action, the TWS bluetooth headset detects and counts the total number P of function switching actions, function closing actions and function starting, and records the number X of function switching actions, the number V of function closing actions and the time interval T _p' from the function starting to the function ending when the function is started, wherein P is the recorded number of times of the time interval from the function starting to the function ending, p=1, 2, the number P, and the accuracy Θ is calculated according to a formula.

Further, the specific calculation formula of the accuracy Θ is as follows: Wherein/> For a set standard time interval from start of function to end of function,/>For the allowable time interval difference of the set function start-up to function end time interval,/>For the weight value of the function start-to-function end time interval difference, ω ₁ and ω ₂ are weight values of the function switching operation number and the function closing operation number.

Further, the step of judging various personalized touch actions according to the accuracy specifically refers to: the set accuracy allows the threshold G and prohibits the threshold G ₀, and G ₀ < G; when the accuracy Θ meets Θ > G, the accuracy satisfies the permission requirement, and the current personalized touch action is not adjusted; when the accuracy theta meets G ₀ < theta < G, indicating that the accuracy does not meet the allowable requirement, adjusting the current personalized touch action, wherein the adjustment refers to the re-modification of the values corresponding to various personalized touch actions according to the latest historical touch information; when the accuracy Θ satisfies Θ < G ₀, the accuracy seriously does not satisfy the permission requirement, the use of the current personalized touch action is forbidden, and the current personalized touch action is regulated.

One or more technical solutions provided in the embodiments of the present application at least have the following technical effects or advantages:

1. the method has the advantages that the historical use data are obtained, the use times and the duration of the touch actions are extracted, the gyroscope data analysis is combined, the comprehensive characteristics of the personalized touch actions are obtained, and the comprehensive characteristics are applied to the replacement of default touch actions, so that the interaction experience and the operation efficiency of users are improved, the touch actions are more in line with the habit and the preference of the users, the personalized customization of the Bluetooth headset touch actions is further realized, and the problem that the personalized customization is limited in the prior art is effectively solved.

2. The personalized touch control action is regulated and forbidden through accuracy judgment, and when the requirement is met, the personalized touch control action is not regulated; readjusting when the requirements are met but not sufficient; when the requirements are seriously not met, the use and adjustment are forbidden, so that possible misoperation and false triggering are avoided, and the optimization accuracy and user experience are further realized.

3. By updating the touch action into the personalized touch action and reserving the default touch action, even if the personalized touch action is regulated or forbidden due to insufficient accuracy and other reasons, a user can still rely on the default touch action to operate, and further better user experience and operation flexibility are provided.

Drawings

Fig. 1 is a block diagram of a multifunctional TWS bluetooth headset according to an embodiment of the present application;

Fig. 2 is a flowchart of a control and adjustment method of a multifunctional TWS bluetooth headset according to an embodiment of the application;

Fig. 3 is a flowchart of an analysis and personalized touch action provided by an embodiment of the present application.

Detailed Description

The embodiment of the application solves the problem of limited personalized customization in the prior art by providing the multifunctional TWS Bluetooth earphone and the control and adjustment method thereof, and realizes the personalized customization of the touch actions by analyzing the personalized touch actions according to the historical touch information of the user using the default touch actions to replace the default touch actions.

The technical scheme in the embodiment of the application aims to solve the problem of limited personalized customization, and the overall thought is as follows:

Providing a default touch action for a user through the TWS Bluetooth headset, wherein the touch action refers to a starting action corresponding to different functions, recording touch information of the user, analyzing the touch information to obtain personalized touch actions, updating the default touch action into the personalized touch action, and reserving the default touch action; the TWS Bluetooth headset motion state detected in real time starts the personalized touch control motion corresponding to the motion state, accuracy inspection is carried out on the started touch control information, and various personalized touch control motions are judged and adjusted according to accuracy, so that personalized customization of the touch control motion of the Bluetooth headset is achieved.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

As shown in fig. 1, a structure diagram of a multifunctional TWS bluetooth headset according to an embodiment of the present application includes: the system management module is respectively connected with the play management module, the touch data processing module, the wireless communication module and the auxiliary module, and the touch data processing module is respectively connected with the play management module and the wireless communication module; and a system management module: the system is used for storing a power supply, providing a CPU processing data function and installing and replacing a new system; and a play management module: the Bluetooth sound box is used for providing a Bluetooth sound box, playing the playing content through the Bluetooth sound box, simultaneously providing a knob to control sound of the sound box of the TWS Bluetooth earphone, and playing the playing content in a form of H I F I without loss sound quality; touch data processing module: the touch control system comprises a high-definition touch screen, a touch control device and a touch control device, wherein the high-definition touch screen is used for receiving touch data of a user and analyzing corresponding touch control actions and functions corresponding to the touch control actions according to the touch data; a wireless communication module: the system is used for supporting a user to send a call by using an M I C microphone and supporting the user to download software, insert a card to talk and communicate video through WI F I networking; and an auxiliary module: the voice control system is used for receiving voice control information of the user on the functions through the voice intelligent assistant and starting the corresponding voice control functions.

As shown in fig. 2, a flowchart of a control and adjustment method of a multifunctional TWS bluetooth headset according to an embodiment of the application is provided, and the method is applied to the multifunctional TWS bluetooth headset, and includes the following steps: s1, a TWS Bluetooth headset is connected with mobile equipment; s2, the TWS Bluetooth headset provides default touch actions for a user, wherein the touch actions refer to starting actions corresponding to different functions; s3, the TWS Bluetooth headset records touch information of the user and analyzes the touch information to obtain personalized touch actions; s4, updating the default touch actions into personalized touch actions by the TWS Bluetooth headset, and reserving the default touch actions; s5, starting personalized touch actions corresponding to the action states according to the action states of the TWS Bluetooth earphone detected in real time; and S6, the TWS Bluetooth headset performs accuracy check on the started touch information, and judges and adjusts various personalized touch actions according to accuracy.

Further, the touch information includes each touch action, a function corresponding to each touch action, historical usage data of the function corresponding to each touch action, and gyroscope data.

Further, as shown in fig. 3, the analysis provided by the embodiment of the present application obtains a personalized touch action flowchart, and the specific process of obtaining the personalized touch action through the analysis is as follows: acquiring historical use data of touch actions corresponding to different functions, and preprocessing the data; extracting the use times Q _i corresponding to each touch action, the holding time length T _Qi and the total use time length T' of each use of the corresponding function of the touch action from the preprocessed historical data, wherein i is the number of the touch action, i=1, 2, and m are the total types of the touch action; calculating the effective use times alpha of the touch actions according to the use times Q _i corresponding to the touch actions, the holding time length T _Qi and the total use time length T' of each use of the corresponding function of the touch actions; counting the effective use times of each touch control action, sequencing the effective use times from high to low, and sequencing the effective use timesNot including the/>The touch control action is recorded as a common action, and the/>To/>The touch operation is described as a general operation, and the/>After that do not include the/>The touch control action is marked as an unusual action; acquiring each touch action in common actions, and respectively extracting gyroscope data corresponding to the starting moment and the using period of each touch action; analyzing the gyroscope data to obtain comprehensive individual use characteristics of each function corresponding to the touch action; and changing the numerical value of the touch action according to the comprehensive individual use characteristics of each touch action, storing the changed touch action as an individual touch action, and replacing the default touch action by using the individual touch action.

In this embodiment, the demarcation points for common actions, normal actions, and unusual actions may be appropriately adjusted according to the number of actual functions. After replacing the default touch action by the personalized touch action, the default touch action is reserved, and the situation that the new touch action and the old touch action are unavailable due to the problem of the personalized touch action is avoided. Meanwhile, a setting without using personalized touch actions is provided for the user.

Further, the specific calculation process of the effective use times alpha of the touch action is as follows: wherein Δt represents a standard use duration of a preset function corresponding to each touch operation, and δ ₁ and δ ₂ are weight factors of a set standard use time difference and an actual use time difference, respectively.

In this embodiment, the number of effective uses is reserved, and the skipped function is ignored when the function is switched, so as to avoid the influence of the skipped function on the analysis of the personalized touch action.

Further, the specific process for obtaining the comprehensive individual use characteristics of the touch actions corresponding to the functions is as follows: acquiring gyroscope data, wherein the gyroscope data comprise inclination angles of TWS Bluetooth headphones at each function starting momentAnd the inclination acceleration epsilon _i, further comprising the inclination angle/>, of the TWS Bluetooth headset at each moment during the use of each functionTilt acceleration ε' _ik, tilt angle duration total length/>Tilt acceleration duration total duration/>Where k is the recording time number, i.e. the inclination angle/>, of the TWS Bluetooth headset will be recorded once at recording time number k during function useAnd a tilt acceleration epsilon' _ik, k=1, 2,..n; the comprehensive personality usage characteristics psi _i corresponding to each function of the touch action are calculated according to a formula, and the specific calculation formula of the comprehensive personality usage characteristics psi _i is as follows: Wherein phi _i is the individual usage characteristic corresponding to the inclination angle, E _i is the individual usage characteristic corresponding to the inclination acceleration, and lambda ₁ and lambda ₂ are the set influence factors of the inclination angle and the inclination acceleration respectively,/> And/>The influence factors of the total duration of the inclination angle and the total duration of the inclination acceleration are respectively; the specific calculation formula of the personality usage characteristic phi _i corresponding to the inclination angle is as follows: wherein/> To start the instantaneous maximum tilt angle,/>For the minimum value of the starting moment inclination angle, gamma ₁ is a weight factor of the set starting moment inclination angle difference, and lambda ₁ is a correction factor of the individual use characteristic corresponding to the set inclination angle; the specific calculation formula of the individual usage characteristics e _i corresponding to the inclination acceleration is as follows: Wherein epsilon ^max is the maximum value of the starting instant tilting acceleration, epsilon ^min is the minimum value of the starting instant tilting acceleration, gamma ₂ is the set weighting factor of the starting instant tilting acceleration difference, and lambda ₂ is the correction factor of the individual use characteristic corresponding to the set tilting acceleration.

In this embodiment, in the calculation formula of the comprehensive personality usage feature corresponding to each function of the touch action, the values of each influencing factor need to be unified and standardized in advance, so that more influencing factors can be added, and the corresponding new comprehensive personality usage feature value can be obtained by multiplying the influencing factors by the weight values corresponding to the influencing factors in the comprehensive personality usage feature.

Further, the touch control action corresponding to the action state of the TWS Bluetooth headset action state starting action state detected in real time specifically refers to: setting corresponding personalized starting inclination angles according to the personalized use characteristics corresponding to the inclination angles, and setting corresponding personalized starting inclination accelerations according to the personalized use characteristics corresponding to the inclination accelerations; monitoring the action state of the TWS Bluetooth headset in real time through a gyroscope in the TWS Bluetooth headset, wherein the action state comprises an inclination angle and an inclination acceleration; when the real-time monitored inclination angle of the TWS Bluetooth headset accords with the personalized starting inclination angle, and the real-time monitored inclination acceleration of the TWS Bluetooth headset accords with the personalized starting inclination acceleration, the action state is automatically started to correspond to the personalized touch action, and meanwhile, the function corresponding to the personalized touch action is started.

In this embodiment, after the personalized touch action is obtained, the TWS bluetooth headset will detect its own tilt angle and tilt acceleration, and when both meet the criteria of a certain function, the function will be automatically triggered, without requiring manual touch by the user. In addition, the influence factors of triggering and the conditions which the influence factors need to meet can be increased according to actual conditions.

Further, the accuracy test for the touch information after the start specifically refers to: after each time a function is started by a personalized touch action, the TWS bluetooth headset detects and counts the total number P of function switching actions, function closing actions and function starting, and records the number X of function switching actions, the number V of function closing actions and the time interval T _p' from the function starting to the function ending when the function is started, wherein P is the recorded number of times of the time interval from the function starting to the function ending, p=1, 2, the number P, and the accuracy Θ is calculated according to a formula.

In this embodiment, after the function is started by the personalized touch action, the bluetooth headset automatically acquires action data of the started bluetooth headset, compares the action data with historical action data of the function, and checks whether the action accords with the rule of the historical data. The calculation accuracy can more intuitively see the deviation between the personalized touch action and the normal use of the user.

Further, the specific calculation formula of the accuracy Θ is: Wherein/> For a set standard time interval from start of function to end of function,/>For the allowable time interval difference of the set function start-up to function end time interval,/>For the weight value of the function start-to-function end time interval difference, ω ₁ and ω ₂ are weight values of the function switching operation number and the function closing operation number.

Further, judging various personalized touch actions according to accuracy specifically refers to: the set accuracy allows the threshold G and prohibits the threshold G ₀, and G ₀ < G; when the accuracy Θ meets Θ > G, the accuracy satisfies the permission requirement, and the current personalized touch action is not adjusted; when the accuracy theta meets G ₀ < theta < G, the accuracy does not meet the allowable requirement, the current personalized touch action is adjusted, and the adjustment means modifies the numerical values corresponding to various personalized touch actions again according to the latest historical touch information; when the accuracy Θ satisfies Θ < G ₀, the accuracy seriously does not satisfy the permission requirement, the use of the current personalized touch action is forbidden, and the current personalized touch action is regulated.

In this embodiment, through accuracy judgment and corresponding adjustment of the personalized touch action, accuracy and reliability of user operation are improved, matching of the personalized touch action and user intention is ensured, and interaction experience and operation effect of a user are further enhanced.

The technical scheme provided by the embodiment of the application at least has the following technical effects or advantages: the comprehensive characteristics of the personalized touch actions are obtained by acquiring historical use data, extracting the use times and duration of the touch actions and combining gyroscope data analysis, and are applied to replace default touch actions, so that the interaction experience and operation efficiency of users are improved, the touch actions are more in line with the habits and preferences of the users, and personalized customization of the Bluetooth headset touch actions is further realized.

It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (4)

1. The control and regulation method of the multifunctional TWS Bluetooth headset is characterized by comprising the following steps of:

s1, a TWS Bluetooth headset is connected with mobile equipment;

S2, providing a default touch action for a user by the TWS Bluetooth headset, wherein the touch action refers to a starting action corresponding to different functions;

S3, the TWS Bluetooth headset records touch information of the user and analyzes the touch information to obtain personalized touch actions;

S4, updating the default touch actions into personalized touch actions by the TWS Bluetooth headset, and reserving the default touch actions;

s5, starting personalized touch actions corresponding to the action states according to the action states of the TWS Bluetooth earphone detected in real time;

S6, the TWS Bluetooth headset performs accuracy check on the started touch information, and judges and adjusts various personalized touch actions according to accuracy;

The step of performing accuracy check on the touch information after the start specifically comprises the following steps:

After each time the function is started by the personalized touch control action, the TWS Bluetooth headset detects and counts the total times of the function switching action, the function closing action and the function starting And recording the number of times of function switching operation at the time of starting the function/>Number of times of function closing action/>And the time interval/>, from the start of the function to the end of the functionWherein/>Record number of times for time interval from start of function to end of function,/>From this the accuracy/>, is calculated by the formula；

Said accuracy ofThe specific calculation formula of (2) is as follows:

Wherein/> For a set standard time interval from start of function to end of function,/>For the allowable time interval difference of the set function start-up to function end time interval,/>For the weight value of the difference between the function start and the function end time interval,/>And/>The weight value of the function switching action times and the function closing action times is used for the function switching action times and the function closing action times;

the specific process of analyzing the personalized touch action comprises the following steps:

Acquiring historical use data of touch actions corresponding to different functions, and preprocessing the data;

Extracting the corresponding use times of each touch action from the preprocessed historical data Holding time length/>, of each use of touch control action corresponding functionAnd use total duration/>Wherein/>Is the number of the touch control action,/>，/>Is the total number of types of touch actions;

according to the corresponding use times of each touch control action Holding time length/>, of each use of touch control action corresponding functionAnd use total duration/>Calculating effective use times/>, of touch actions；

Counting the effective use times of each touch control action, sequencing the effective use times from high to low, and sequencing the effective use timesNot including the/>The touch control action is recorded as a common action, and the/>To/>The touch operation is described as a general operation, and the/>After that do not include the/>The touch control action is marked as an unusual action;

Acquiring each touch action in common actions, and respectively extracting gyroscope data corresponding to the starting moment and the using period of each touch action;

analyzing the gyroscope data to obtain comprehensive individual use characteristics of each function corresponding to the touch action;

changing the numerical value of the touch action according to the comprehensive individual use characteristics of each touch action, storing the changed touch action as an individual touch action, and replacing the default touch action by using the individual touch action;

the specific process for obtaining the comprehensive individual use characteristics of the touch actions corresponding to the functions is as follows:

Acquiring gyroscope data, wherein the gyroscope data comprise inclination angles of TWS Bluetooth headphones at each function starting moment And Tilt acceleration/>The method also comprises the inclination angle/>, of the TWS Bluetooth headset at each moment during the use of each functionTilt acceleration/>Tilt Angle duration Total duration/>Tilt acceleration duration total duration/>Of (3), wherein/>For recording time numbering, i.e. during use of the function, at recording time numbering/>The inclination angle/>, of the TWS Bluetooth headset is recorded onceAnd Tilt acceleration/>，/>；

Calculating comprehensive individual use characteristics corresponding to each function of the touch action according to a formulaComprehensive personality utilization characteristics/>The specific calculation formula of (2) is as follows: /(I)Wherein/>For the personality usage characteristics corresponding to the tilt angle,/>For the personality usage characteristics corresponding to tilt acceleration,/>And/>Impact factors of set inclination angle and inclination acceleration respectively,/>And/>The influence factors of the total duration of the inclination angle and the total duration of the inclination acceleration are respectively;

The individual use characteristics corresponding to the inclination angle The specific calculation formula of (2) is as follows: Wherein/> To start the instantaneous maximum tilt angle,/>To start the instantaneous inclination angle minimum value,/>For the set weight factor of the starting instant inclination angle difference,/>A correction factor of the individual use characteristics corresponding to the set inclination angle;

Individual use characteristics corresponding to the inclination acceleration The specific calculation formula of (2) is as follows: Wherein/> To start the instantaneous tilt acceleration maximum,/>To start the instantaneous tilt acceleration minimum,/>For the set weighting factor of the starting instant tilting acceleration difference,/>A correction factor of the individual usage characteristics corresponding to the set inclination acceleration;

the specific judgment of various personalized touch actions according to the accuracy is as follows:

accuracy permission threshold of setting And forbidden threshold/>And/>；

When accuracy isSatisfy/>When the accuracy meets the allowable requirement, the current personalized touch action is not adjusted;

when accuracy is Satisfy/>When the accuracy does not meet the allowable requirement, the current personalized touch action is adjusted, and the adjustment refers to the re-modification of the numerical values corresponding to various personalized touch actions according to the latest historical touch information;

when accuracy is Satisfy/>When the accuracy degree seriously does not meet the permission requirement, the use of the current personalized touch action is forbidden, and the current personalized touch action is regulated.

2. The control and adjustment method of the multifunctional TWS bluetooth headset of claim 1, wherein: the touch information comprises each touch action, functions corresponding to each touch action, historical use data of the functions corresponding to each touch action and gyroscope data.

3. The control and adjustment method of the multifunctional TWS bluetooth headset of claim 1, wherein: the effective use times of the touch control actionThe specific calculation process of (1) is as follows: /(I)Wherein/>Representing the standard use duration of preset corresponding functions of each touch action,/>And/>The weight factors of the standard use time difference and the actual use time difference are respectively set.

4. The control and adjustment method of the multifunctional TWS bluetooth headset of claim 1, wherein: the touch control action corresponding to the action state of the TWS Bluetooth headset detected in real time is specifically:

Setting corresponding personalized starting inclination angles according to the personalized use characteristics corresponding to the inclination angles, and setting corresponding personalized starting inclination accelerations according to the personalized use characteristics corresponding to the inclination accelerations;

Monitoring the action state of the TWS Bluetooth headset in real time through a gyroscope in the TWS Bluetooth headset, wherein the action state comprises an inclination angle and an inclination acceleration;

When the real-time monitored inclination angle of the TWS Bluetooth headset accords with the personalized starting inclination angle, and the real-time monitored inclination acceleration of the TWS Bluetooth headset accords with the personalized starting inclination acceleration, the action state is automatically started to correspond to the personalized touch action, and meanwhile, the function corresponding to the personalized touch action is started.