CN109151644A - The master slave mode distribution method and device of earphone - Google Patents

Abstract

The present embodiments relate to a kind of master slave mode distribution methods of earphone, comprising: obtains the first system influence factor of the first earphone, obtains the second system influence factor of the second earphone；The first system influence factor and the second system influence factor include at least two different systematic influence factors；Weight coefficient is distributed for each systematic influence factor of the first earphone, and each systematic influence factor is superimposed according to corresponding weight coefficient, the first influence factor as first earphone, and weight coefficient is distributed for each systematic influence factor of the second earphone, each systematic influence factor is superimposed according to the weight coefficient of distribution, the second influence factor as second earphone；Compare first influence factor and the second influence factor；And the comparing result according to first influence factor and the second influence factor, it is that the first earphone and the second earphone distribute principal and subordinate's earphone state, the communication stability of main earphone and terminal can be improved.

Description

The master slave mode distribution method and device of earphone

Technical field

The present invention relates to ear phone technology fields, more particularly to the master slave mode distribution method and device of a kind of earphone.

Background technique

Existing earphone, such as the ever-increasing TWS of demand (True Wireless Stereo, true nothing in recent years DNA mitochondrial DNA sound) earphone, it is typically necessary and is communicated with terminal.In order to realize the connection of earphone and terminal, occur a variety of earphones with The group network system of terminal (such as mobile phone).What earphone usually occurred in pairs, but these group network systems still only allow wherein at present One earphone and terminal carry out direct communication, we are known as main earphone with the earphone, another earphone, can only by main earphone, Or other modes, communicated indirectly with terminal, the earphone we be referred to as from earphone.

At present by earphone distribute for main earphone or from the mode of earphone be compare two earphones triangular web influence because Element distributes the master slave mode of earphone according to the size of two earphone systematic influence factors.Systematic influence factor is to influence ear The factor of machine communication stability.For example, being the wireless headset of charged pool charging for TWS earphone, TWS earphone is assigned as at present Main earphone or when from earphone, the systematic influence factor of consideration is only the remaining capacity of earphone.

But the master slave mode distribution for comparing the triangular web influence factor of two earphones to confirm earphone is only depended on, no It goes to consider other systems influence factor, finally will affect the communication stability of main earphone and terminal.

Summary of the invention

Based on this, it is necessary to provide a kind of master slave mode distribution method of earphone.

A kind of master slave mode distribution method of earphone, comprising:

The first system influence factor of the first earphone is obtained, the second system influence factor of the second earphone is obtained；Described One systematic influence factor and the second system influence factor include at least two different systematic influence factors；

Weight coefficient is distributed for each systematic influence factor of the first earphone, and by each systematic influence factor according to correspondence Weight coefficient superposition, as the first influence factor of first earphone, and be the second earphone each systematic influence factor Weight coefficient is distributed, each systematic influence factor is superimposed according to the weight coefficient of distribution, second as second earphone Influence factor；

Compare first influence factor and the second influence factor；And

It is the first earphone and the second earphone point according to the comparing result of first influence factor and the second influence factor With principal and subordinate's earphone state.

When the master slave mode of the master slave mode distribution method of above-mentioned earphone, the first earphone of distribution and the second earphone, at least can Comprehensively consider two different systematic influence factors, and distributes corresponding weight coefficient for corresponding system influence factor, compared to The case where only depending on master slave mode of some system factor for comparing two earphones to confirm earphone relies on the present processes The main earphone of distribution is communicated with terminal, and communication stability can be improved.

The first system influence factor and the second system influence factor include in one of the embodiments, Earphone remaining capacity, earphone take out the cellular signal strength and ear that the sequence, the pleasant sequence of earphone, earphone of storage box receive It is any two or more in the ambient noise size of machine.

The first influence factor of the comparison and the step of the second influence factor are comparisons in one of the embodiments, The size relation of the numerical value of one influence factor and the numerical value of the second influence factor；

It is described according to the first influence factor and the second influence factor, be that the first earphone and the second earphone distribute principal and subordinate's earphone The step of state is according to the size relation of the numerical value of the numerical value and second influence factor of first influence factor, is the One earphone and the second earphone distribute principal and subordinate's earphone state.

If detecting in one of the embodiments, the first earphone and the second earphone are in open state, first system Influence factor and the second system influence factor of uniting then include earphone remaining capacity, earphone take out storage box sequence, Five different systematic influences of ambient noise size of the pleasant sequence of earphone, the cellular signal strength that earphone receives and earphone Factor；

The step of the first system influence factor for obtaining the first earphone, includes the remaining capacity for obtaining the first earphone, obtains The first earphone is taken to take out the sequence of storage box, the pleasant sequence for obtaining the first earphone, obtain the mobile phone letter that the first earphone receives Number intensity obtains the step of local environment noise size of the first earphone；It is described obtain the second earphone second system influence because The step of element includes obtaining the second earphone remaining capacity, the sequence for obtaining the second earphone taking-up storage box, obtaining the second earphone Pleasant sequence, obtain the second earphone receive cellular signal strength, obtain the second earphone ambient noise size the step of.

If detecting in one of the embodiments, the first earphone and the second earphone are in normal mode of operation, described The mobile phone letter that one systematic influence factor and the second system influence factor are then received including earphone remaining capacity, earphone Ambient noise size three different systematic influence factors of number intensity and earphone；

The step of the first system influence factor for obtaining the first earphone, includes the remaining capacity for obtaining the first earphone, obtains The cellular signal strength that takes the first earphone to receive obtains the step of local environment noise size of the first earphone；The acquisition The step of second system influence factor of second earphone include obtain the second earphone remaining capacity, obtain the second earphone receive Cellular signal strength obtains the step of ambient noise size of the second earphone.

Each systematic influence factor for the first earphone distributes weight coefficient in one of the embodiments, and will The step of each systematic influence factor is superimposed according to corresponding weight coefficient, the first influence factor as first earphone is wrapped It includes: distributing the first electricity weight coefficient for the remaining capacity of the first earphone, be that the pleasant order-assigned first of the first earphone is pleasant Weight coefficient, the order-assigned first for taking out storage box for the first earphone take out weight coefficient, are that the earphone of the first earphone receives The cellular signal strength arrived distributes the first signal weight coefficient, is that the ambient noise of the first earphone distributes the first noise weight system Number；The residual electric quantity of first earphone is multiplied with the first electricity weight coefficient, the pleasant sequence valve of the first earphone enters with first Ear weight coefficient be multiplied, the first earphone take out storage box sequence valve with first take out weight coefficient be multiplied, the ear of the first earphone Cellular signal strength value and the first signal weight multiplication, the ambient noise value of the first earphone and the first noise that machine receives Weight coefficient is multiplied, and is then added obtained each multiplied value, value after will add up as first earphone influence because Element；

It is described be the second earphone each systematic influence factor distribution weight coefficient, by each systematic influence factor according to point The step of weight coefficient superposition matched, the second influence factor as second earphone includes: the residue electricity for the second earphone Amount the second electricity weight coefficient of distribution, is the pleasant weight coefficient of pleasant order-assigned second of the second earphone, takes for the second earphone The order-assigned second of storage box takes out weight coefficient out, for the cellular signal strength distribution that receives of earphone of the second earphone Binary signal weight coefficient is that the ambient noise of the second earphone distributes the second noise weight coefficient；By the remaining capacity of the second earphone Value is multiplied with the second electricity weight coefficient, the pleasant sequence valve of the second earphone is multiplied with the second pleasant weight coefficient, the second earphone The sequence valve for taking out storage box takes out the cellular signal strength value that weight coefficient is multiplied, the earphone of the second earphone receives with second It is multiplied with second signal weight coefficient, the ambient noise value of the second earphone and the second noise weight multiplication, then will obtain Each multiplied value be added, influence factor of the value as second earphone after will add up.

In one of the embodiments, the first electricity weight coefficient be equal to the second electricity weight coefficient, described first Pleasant weight coefficient is equal to the second pleasant weight coefficient, and first, which takes out weight coefficient, is equal to the second taking-up weight coefficient, the first letter Number weight coefficient is equal to second signal weight coefficient, and the first noise weight coefficient is equal to the second noise weight coefficient.

In one of the embodiments, the method also includes:

Obtain whether user needs to fix the first customer impact factor that the first earphone is main earphone, and obtain user to be It is no to need to fix the second user influence factor that the second earphone is main earphone；

First user's fixed weight coefficient is distributed for the first customer impact factor, and is influenced for the second user Factor distributes second user fixed weight coefficient；

It is described to be superimposed each systematic influence factor according to corresponding weight coefficient, the step as first influence factor It suddenly include: the sum of the systematic influence factor for being superimposed each systematic influence factor according to corresponding weight coefficient, as described the One systematic influence factor, and the first system weight coefficient is distributed for the first system influence factor, and by the first system Influence factor and the first customer impact factor are superimposed according to corresponding weight coefficient, as first influence factor；

It is described to be superimposed each factor according to corresponding weight coefficient, include: as the step of second influence factor The sum of the systematic influence factor that each systematic influence factor is superimposed according to corresponding weight coefficient, as the second system shadow The factor of sound, and second system weight coefficient is distributed for the second system influence factor, and by the first system influence factor And the first customer impact factor is superimposed according to corresponding weight coefficient, as first influence factor.

If getting user in one of the embodiments, needs to fix the information that the first earphone is main earphone, configure The first system weight coefficient is zero, and first user's fixed weight coefficient of configuration is 1, and needs to fix the first earphone according to user and be The information of main earphone configures the current state of first earphone for main earphone state, by the current state of second earphone It is configured to from earphone state；

If getting user needs to fix the information that the second earphone is main earphone, configuring second system weight coefficient is Zero, configuration second user fixed weight coefficient is 1, and needing to fix the second earphone according to user will be described for the information of main earphone The current state configuration of second earphone is main earphone state, configures the current state of first earphone to from earphone state.

A kind of master slave mode distributor of earphone, described device include:

Module is obtained, for obtaining the first system influence factor of the first earphone, obtains the second system shadow of the second earphone The factor of sound；The first system influence factor and the second system influence factor include at least two different system shadows The factor of sound；

Weight distribution and laminating module distribute weight coefficient for each systematic influence factor for the first earphone, and Each systematic influence factor is superimposed according to corresponding weight coefficient, as the first influence factor of first earphone, and is Each systematic influence factor of second earphone distributes weight coefficient, and each systematic influence factor is folded according to the weight coefficient of distribution Add, the second influence factor as second earphone；

Contrast module, for comparing first influence factor and the second influence factor；And

Principal and subordinate's earphone state assignment module, for the comparison knot according to first influence factor and the second influence factor Fruit is that the first earphone and the second earphone distribute principal and subordinate's earphone state.

Detailed description of the invention

Fig. 1 is the flow diagram of the master slave mode distribution method of the earphone in the application one embodiment；

Fig. 2 is the flow diagram of the master slave mode distribution method of the earphone in another embodiment；

Fig. 3 is the master slave mode distribution that earphone is in open state and the earphone under normal mode of operation in one embodiment The flow diagram of method；

Fig. 4 is the structural schematic diagram of the master slave mode distributor of the earphone in the application one embodiment.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

Fig. 1 is the flow diagram of the master slave mode distribution method of the earphone in the application one embodiment.Ear in Fig. 1 The master slave mode distribution method of machine includes:

Step 102, obtain the first earphone the first system influence factor, obtain the second earphone second system influence because Element；The first system influence factor and second system influence factor include at least two different systematic influence factors.System Influence factor is to influence the factor of earphone and terminal communication stability.

First earphone can be left earphone, and the second earphone then can be right earphone.First earphone and the second earphone can be The TWS earphone of each free independent battery power supply.

Wherein, the first system influence factor and second system influence factor include but is not limited to earphone remaining capacity, Earphone takes out the ambient noise of the sequence of storage box, the pleasant sequence of earphone, the cellular signal strength that earphone receives and earphone Any two or more factors in size.

It should be noted that the factor that the second system influence factor of the first system influence factor and acquisition that obtain includes Content is answered identical.

Earphone remaining capacity is for the wireless headset using battery charging, the remaining capacity of battery, battery dump energy More, the use duration of corresponding earphone is also grown.Earphone is usually to be put in storage box when not used, and the sequence that earphone takes out storage box is Wherein an earphone is relative to another earphone from storage box taking-up sequence.The pleasant sequence of earphone be wherein an earphone relative to Another earphone is worn over the sequence of user's ear.Earphone can be communicated by group network system with terminal, the mobile phone letter that earphone receives Number intensity is better, and the probability that staccato and card sound phenomenon occur can also reduce.

Step 104, weight coefficient is distributed for each systematic influence factor of the first earphone, and by each systematic influence factor It is superimposed according to corresponding weight coefficient, as the first influence factor of the first earphone, and is each systematic influence of the second earphone Factor distributes weight coefficient, each systematic influence factor is superimposed according to the weight coefficient of distribution, second as the second earphone Influence factor.

Weight coefficient range for the distribution of each systematic influence factor of the first earphone and the second earphone can be 0 to 1. Can influence according to each systematic influence factor to earphone distribute weight coefficient, big systematic influence factor is influenced on earphone, Biggish weight coefficient can be distributed.

It should be noted that the sum of the weight coefficient that distributes of each systematic influence factor for the first earphone should be equal to the The sum of the weight coefficient of each systematic influence factor distribution of two earphones.It is the first earphone for identical systematic influence factor The factor weight coefficient of distribution should be equal to the factor weight coefficient of the second earphone distribution.

Step 106, the first influence factor and the second influence factor are compared.

For the first earphone and the second earphone, the step of each systematic influence factor is superimposed according to the weight coefficient of distribution It is to be superimposed the numerical value of each systematic influence factor according to the weight coefficient of distribution.Compare the first influence factor and the second influence Factor is then to compare the size relation of the numerical value and the second influence factor numerical value of the first influence factor.

It step 108, is the first earphone and the second ear according to the comparing result of the first influence factor and the second influence factor Machine distributes principal and subordinate's earphone state, to determine principal and subordinate's earphone.

Specifically, the step of comparing the first influence factor and the second influence factor is the numerical value for comparing the first influence factor And second the size relation of numerical value of influence factor then according to the first influence factor and the second influence factor be first The step of earphone and the second earphone distribution principal and subordinate's earphone state is the numerical value and the second influence factor according to the first influence factor The size relation of numerical value is that the first earphone and the second earphone distribute principal and subordinate's earphone state.

In a specific embodiment, the first system influence factor and second system influence factor include earphone residue Electricity, earphone take out the environment of the sequence of storage box, the pleasant sequence of earphone, the cellular signal strength that earphone receives and earphone This five factors of noise size；So, the step of obtaining the first system influence factor of the first earphone includes obtaining the first earphone Remaining capacity, obtain the first earphone take out storage box sequence, obtain the first earphone pleasant sequence, obtain the first earphone connect The cellular signal strength that receives obtains the step of local environment noise size of the first earphone；Obtain the second system of the second earphone The step of influence factor of uniting includes obtaining the second earphone remaining capacity, obtaining the second earphone and take out the sequence of storage box, obtain the The pleasant sequence of two earphones obtains cellular signal strength, the ambient noise size of the second earphone of acquisition that the second earphone receives The step of.

So, further, weight coefficient is distributed for each systematic influence factor of the first earphone, and by each system shadow The step of factor of sound is superimposed according to corresponding weight coefficient, the first influence factor as the first earphone includes: for the first earphone Remaining capacity distribute the first electricity weight coefficient, be the pleasant weight coefficient of pleasant order-assigned first of the first earphone, be the The order-assigned first that one earphone takes out storage box takes out weight coefficient, strong for the mobile phone signal that receives of earphone of the first earphone Degree the first signal weight coefficient of distribution is that the ambient noise of the first earphone distributes the first noise weight coefficient；By the first earphone Residual electric quantity is multiplied with the first electricity weight coefficient, the pleasant sequence valve of the first earphone is multiplied with the first pleasant weight coefficient, First earphone takes out the sequence valve of storage box and first and takes out the mobile phone letter that weight coefficient is multiplied, the earphone of the first earphone receives Number intensity value and the first signal weight multiplication, the ambient noise value of the first earphone and the first noise weight multiplication, so Obtained each multiplied value is added afterwards, influence factor of the value as the first earphone after will add up；

Weight coefficient is distributed for each systematic influence factor of the second earphone, by each systematic influence factor according to distribution The step of weight coefficient superposition, the second influence factor as the second earphone then includes: to distribute for the remaining capacity of the second earphone Second electricity weight coefficient, is the pleasant weight coefficient of pleasant order-assigned second of the second earphone, takes out storage for the second earphone The order-assigned second of box takes out weight coefficient, is the cellular signal strength distribution second signal that the earphone of the second earphone receives Weight coefficient is that the ambient noise of the second earphone distributes the second noise weight coefficient；By the residual electric quantity of the second earphone and the Two electricity weight coefficients are multiplied, the pleasant sequence valve of the second earphone is multiplied with the second pleasant weight coefficient, the second earphone takes out and receives The sequence valve of case takes out the cellular signal strength value and second that weight coefficient is multiplied, the earphone of the second earphone receives with second Signal weight multiplication, the ambient noise value of the second earphone and the second noise weight multiplication, it is then each by what is obtained Multiplied value is added, influence factor of the value as the second earphone after will add up.

Wherein, the first electricity weight coefficient is equal to the second electricity weight coefficient, and the first pleasant weight coefficient is equal to second and enters Ear weight coefficient, first, which takes out weight coefficient, is equal to the second taking-up weight coefficient, and the first signal weight coefficient is equal to second signal Weight coefficient, the first noise weight coefficient are equal to the second noise weight coefficient.

The step of obtaining the remaining capacity of the first earphone and the second earphone can be the battery for detecting the first earphone respectively With the remaining capacity of the battery of the second earphone.

Specifically can by detection the first earphone and the second earphone leave storage box when time come obtain the first earphone and The sequence of the taking-up storage box of second earphone.It can use the taking-up storage box that bigger numerical characterization first takes out the earphone of storage box Sequence, the sequence of the taking-up storage box of the rear earphone for taking out storage box then characterizes with compared with fractional value.Such as detect the first ear Time when machine leaves storage box can represent the sequence that the first earphone takes out storage box with digital " 4 ", use earlier than the second earphone Digital " 3 " represent the sequence that the second earphone takes out storage box.

Storage box can be can accommodating earphone and the box body to earphone charging.

Can use the pleasant sequence of the first pleasant earphone of bigger numerical characterization, the pleasant sequence of rear pleasant earphone then with compared with Fractional value characterization.Such as detect that the first earphone is first pleasant, the pleasant sequence of the first earphone can be represented with digital " 2 ", use number Word " 1 " represents the pleasant sequence of the second earphone.

It can be by obtaining the environment of the first earphone and the second earphone using the microphone of the first earphone and the second earphone Noise size, since it is considered that earphone communication quality, can select by the small earphone of Environmental Noise Influence as main earphone, therefore for It will affect the case where big earphone of factor value is as main earphone, can use the ring of the small earphone of bigger numerical characterization ambient noise Border noise figure utilizes the ambient noise value of the earphone big compared with fractional value characterization ambient noise.Such as first earphone noise size Less than the noise size of the second earphone, then the ambient noise value of the first earphone can be characterized with digital " 2 ", with digital " 1 " characterization The ambient noise value of second earphone.

The cellular signal strength that the first earphone receives can be obtained by the first earphone received signal intensity of detection.Tool Body, the first earphone received signal intensity can be detected by the first earphone radio frequency parameter of detection.Obtain the reception of the first earphone The step of cellular signal strength arrived, also similarly, repeats no more.

So, the master slave mode distribution method of the earphone in the embodiment of the present application, if the numerical value of the first influence factor is greater than The numerical value of second influence factor, then the current state for configuring the first earphone is main earphone state, configures the current shape of the second earphone State is from earphone state；If the numerical value of the first influence factor configures working as the second earphone less than the numerical value of the second influence factor Preceding state is main earphone state, and the current state of the first earphone of configuration is from earphone state.

Specifically, the systematic influence factor for needing to consider emphatically is thought for user, the systematic influence factor value can be enabled Greater than other systems influence factor value, alternatively, can be greater than for its weight coefficient distributed is the distribution of other systems influence factor Weight coefficient.

In one of the embodiments, referring to Fig. 2, the master slave mode distribution method of the earphone in the embodiment of the present application also The following steps are included:

Step 202, the first customer impact factor whether user needs to fix the first earphone for main earphone is obtained, and is obtained Take whether family needs to fix the second user influence factor that the second earphone is main earphone.

Step 204, first user's fixed weight coefficient is distributed for the first customer impact factor, and is influenced for second user Factor distributes second user fixed weight coefficient.

Each systematic influence factor is superimposed according to corresponding weight coefficient so, is wrapped as the step of the first influence factor It includes: the sum of the systematic influence factor that each systematic influence factor is superimposed according to corresponding weight coefficient, as the first system shadow The factor of sound, and the first system weight coefficient is distributed for the first system influence factor, and by the first system influence factor and first Customer impact factor is superimposed according to corresponding weight coefficient, as the first influence factor；By each factor according to corresponding weight Coefficient superposition, includes: to be superimposed each systematic influence factor according to corresponding weight coefficient as the step of the second influence factor The sum of systematic influence factor, distribute second system weight as second system influence factor, and for second system influence factor Coefficient, and the first system influence factor and the first customer impact factor are superimposed according to corresponding weight coefficient, as first Influence factor.

The influence factor of first earphone and the second earphone can be calculated according to following formula:

((earphone is surplus by+C2* (the pleasant sequence of earphone)+C3* by C1* (sequence of earphone taking-up storage box) for influence factor=CH1* Remaining electricity size)+C4* (signal strength of earphone reception mobile phone)+C5* (the ambient noise size of earphone)+)+CH2* (it is main earphone that whether user, which needs fixed earphone)) formula (1)

Wherein, CH1 is the system weight coefficient of distribution, and CH2 is user's fixed weight coefficient of distribution, and C1 is the electricity of distribution Weight coefficient is measured, C2 is the pleasant weight coefficient of distribution, and C3 is the taking-up weight coefficient of distribution, and C4 is the signal weight system of distribution Number, C5 are the noise weight coefficient of distribution.

For irrespective factor, its corresponding weight coefficient can be set as 0.For example, not examining earphone receives mobile phone The factor of signal strength, then it is zero that C4, which can be set,.

For example, the first earphone is A earphone, the second earphone is B earphone, and the systematic influence factor of A earphone includes that A earphone is remaining Electricity, A earphone take out the cellular signal strength that the sequence of storage box, the pleasant sequence of A earphone, A earphone receive and A earphone Ambient noise size, A headset user influence factor include the factor whether user needs fixed A earphone for main earphone, B earphone Systematic influence factor includes that B earphone remaining capacity, B earphone take out the sequence of storage box, the pleasant sequence of B earphone, B earphone and receive Cellular signal strength and B earphone ambient noise size and user whether to need fixed B earphone be the factor of main earphone.

The influence factor of A earphone is calculated as follows:

A earphone influence factor=CH1A* (C1A* (sequence of A earphone taking-up storage box)+C2A* (the pleasant sequence of A earphone)+ (ambient noise of A earphone is big by+C5A* by C3A* (A earphone remaining capacity size)+C4A* (signal strength of A earphone reception mobile phone) It is small)+)+CH2A* (it is main earphone that whether user, which needs fixed A earphone)) formula (2)

Wherein, CH1A is the system weight coefficient of the A earphone of distribution, and CH2A is user's fixed weight of the A earphone of distribution Coefficient, C1A are the electricity weight coefficient of the A earphone of distribution, and C2A is the pleasant weight coefficient of the A earphone of distribution, and C3A is distribution A earphone taking-up weight coefficient, C4A be distribution A earphone signal weight coefficient, C5A be distribution A earphone noise weigh Weight coefficient.

The influence factor of B earphone is calculated as follows:

B earphone influence factor=CH1B* (C1B* (sequence of B earphone taking-up storage box)+C2B* (the pleasant sequence of B earphone)+ (ambient noise of B earphone is big by+C5B* by C3B* (B earphone remaining capacity size)+C4B* (signal strength of B earphone reception mobile phone) It is small)+)+CH2B* (it is main earphone that whether user, which needs fixed B earphone)) formula (3)

Wherein, CH1B is the system weight coefficient of the B earphone of distribution, and CH2B is user's fixed weight of the B earphone of distribution Coefficient, C1B are the electricity weight coefficient of the B earphone of distribution, and C2B is the pleasant weight coefficient of the B earphone of distribution, and C3B is distribution B earphone taking-up weight coefficient, C4B be distribution B earphone signal weight coefficient, C5B be distribution B earphone noise weigh Weight coefficient.

In one of the embodiments, referring to Fig. 3, the master slave mode distribution method of the earphone in the embodiment of the present application, If detecting, the first earphone and the second earphone are in open state, the first system influence factor and second system influence factor Sequence, the pleasant sequence of earphone, earphone remaining capacity size including earphone taking-up storage box, the signal of earphone reception mobile phone are strong Five factors of ambient noise size of degree, earphone further account for user whether to need fixed earphone being the factor of main earphone.

If detecting, the first earphone and the second earphone are in normal mode of operation, the first system influence factor and second Systematic influence factor includes signal strength, the ambient noise size of earphone of earphone remaining capacity size, earphone reception mobile phone Three factors do not consider that earphone takes out the sequence and the pleasant sequence of earphone of storage box.

It is then in normal mode of operation that first earphone and the second earphone, which are in the state for listening to target sound for user,.

Referring to Fig. 3, the master slave mode distribution method of the earphone in the embodiment of the present application, can by intelligent decision system Lai The first influence factor and the second influence factor are compared, then according to the comparison knot of the first influence factor and the second influence factor Fruit is that the first earphone and the second earphone distribute principal and subordinate's earphone state.

Intelligent decision system specifically can be one in terminal such as mobile phone for distributing the APP of principal and subordinate's earphone.

When the master slave mode of the master slave mode distribution method of above-mentioned earphone, the first earphone of distribution and the second earphone, at least can Comprehensively consider two different systematic influence factors, and distributes corresponding weight coefficient for corresponding system influence factor, compared to The case where only depending on master slave mode of some system factor for comparing two earphones to confirm earphone relies on the present processes The main earphone of distribution is communicated with terminal, and communication stability can be improved.

The master slave mode distributor for also proposing a kind of earphone, referring to Fig. 4, the device includes:

Module 410 is obtained, for obtaining the first system influence factor of the first earphone, obtains the second system of the second earphone Influence factor；The first system influence factor and second system influence factor include at least two different systematic influences because Element；

Weight distribution and laminating module 420, for distributing weight coefficient for each systematic influence factor of the first earphone, And be superimposed each systematic influence factor according to corresponding weight coefficient, it as the first influence factor of the first earphone, and is the Each systematic influence factor of two earphones distributes weight coefficient, and each systematic influence factor is folded according to the weight coefficient of distribution Add, the second influence factor as the second earphone；

Contrast module 430, for comparing the first influence factor and the second influence factor；And

Principal and subordinate's earphone state assignment module 440, for the comparison knot according to the first influence factor and the second influence factor Fruit is that the first earphone and the second earphone distribute principal and subordinate's earphone state.

It also proposes a kind of electronic equipment, including memory and processor, stores computer program, computer in memory When program is executed by processor, so that the step of the master slave mode distribution method of the earphone in processor the application any embodiment Suddenly.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of master slave mode distribution method of earphone, which is characterized in that the described method includes:

The first system influence factor of the first earphone is obtained, the second system influence factor of the second earphone is obtained；First system Influence factor of uniting and the second system influence factor include at least two different systematic influence factors；

Weight coefficient is distributed for each systematic influence factor of the first earphone, and by each systematic influence factor according to corresponding power Weight coefficient superposition, is distributed as the first influence factor of first earphone, and for each systematic influence factor of the second earphone Each systematic influence factor is superimposed by weight coefficient according to the weight coefficient of distribution, and second as second earphone influences Factor；

Compare first influence factor and the second influence factor；And

It is the first earphone and the second earphone distribution master according to the comparing result of first influence factor and the second influence factor From earphone state.

2. the method according to claim 1, wherein

The first system influence factor and the second system influence factor include earphone remaining capacity, earphone taking-up receipts Appointing in the ambient noise size of the pleasant sequence of the sequence of case, earphone, the cellular signal strength that earphone receives and earphone It anticipates two or more.

3. the method according to claim 1, wherein

The first influence factor of the comparison and the step of the second influence factor are the numerical value and for comparing the first influence factor The size relation of the numerical value of two influence factors；

It is described according to the first influence factor and the second influence factor, be that the first earphone and the second earphone distribute principal and subordinate's earphone state The step of be according to the size relation of the numerical value of the numerical value and second influence factor of first influence factor, be the first ear Machine and the second earphone distribute principal and subordinate's earphone state.

4. according to the method described in claim 3, it is characterized in that,

If detecting, the first earphone and the second earphone are in open state, the first system influence factor and second system The sequence, the pleasant sequence of earphone, earphone that system influence factor then takes out storage box including earphone remaining capacity, earphone receive Cellular signal strength and the different systematic influence factor of the ambient noise size of earphone five；

The step of the first system influence factor for obtaining the first earphone, includes the remaining capacity for obtaining the first earphone, obtains the The mobile phone signal that the sequence, the pleasant sequence for obtaining the first earphone, the first earphone of acquisition that one earphone takes out storage box receive is strong Degree obtains the step of local environment noise size of the first earphone；The second system influence factor for obtaining the second earphone Step includes obtaining the second earphone remaining capacity, the sequence for obtaining the second earphone taking-up storage box, obtaining the pleasant of the second earphone Sequentially, the step of obtaining cellular signal strength, the ambient noise size of the second earphone of acquisition that the second earphone receives.

5. according to the method described in claim 3, it is characterized in that,

If detecting, the first earphone and the second earphone are in normal mode of operation, the first system influence factor and described Two system influence factor then includes the ambient noise of earphone remaining capacity, the cellular signal strength that earphone receives and earphone Size three different systematic influence factors；

The step of the first system influence factor for obtaining the first earphone, includes the remaining capacity for obtaining the first earphone, obtains the Cellular signal strength that one earphone receives obtains the step of local environment noise size of the first earphone；It is described to obtain second The step of second system influence factor of earphone includes obtaining the second earphone remaining capacity, obtaining the mobile phone that the second earphone receives Signal strength obtains the step of ambient noise size of the second earphone.

6. according to the method described in claim 4, it is characterized in that,

Described is each systematic influence factor distribution weight coefficient of the first earphone, and by each systematic influence factor according to correspondence Weight coefficient superposition, the step of the first influence factor as first earphone includes: for the remaining capacity of the first earphone The first electricity weight coefficient is distributed, is the pleasant weight coefficient of pleasant order-assigned first of the first earphone, is taken out for the first earphone The order-assigned first of storage box takes out weight coefficient, is the cellular signal strength distribution first that the earphone of the first earphone receives Signal weight coefficient is that the ambient noise of the first earphone distributes the first noise weight coefficient；By the residual electric quantity of the first earphone It is multiplied with the first electricity weight coefficient, the pleasant sequence valve of the first earphone is multiplied with the first pleasant weight coefficient, the first earphone takes Out the sequence valve of storage box with first take out weight coefficient is multiplied, the earphone of the first earphone receives cellular signal strength value and Then first signal weight multiplication, the ambient noise value of the first earphone and the first noise weight multiplication will obtain Each multiplied value is added, influence factor of the value as first earphone after will add up；

Described is each systematic influence factor distribution weight coefficient of the second earphone, by each systematic influence factor according to distribution The step of weight coefficient superposition, the second influence factor as second earphone includes: the remaining capacity point for the second earphone With the second electricity weight coefficient, it is the pleasant weight coefficient of pleasant order-assigned second of the second earphone, takes out and receive for the second earphone The order-assigned second of case takes out weight coefficient, is the second letter of cellular signal strength distribution that the earphone of the second earphone receives Number weight coefficient is that the ambient noise of the second earphone distributes the second noise weight coefficient；By the residual electric quantity of the second earphone with Second electricity weight coefficient is multiplied, the pleasant sequence valve of the second earphone is multiplied with the second pleasant weight coefficient, the second earphone takes out The sequence valve of storage box takes out weight coefficient is multiplied, the earphone of the second earphone receives cellular signal strength value and the with second Binary signal weight coefficient is multiplied, the ambient noise value of the second earphone and the second noise weight multiplication, then each by what is obtained A multiplied value is added, influence factor of the value as second earphone after will add up.

7. according to the method described in claim 6, it is characterized in that, the first electricity weight coefficient is equal to the second electricity weight Coefficient, the first pleasant weight coefficient are equal to the second pleasant weight coefficient, and first, which takes out weight coefficient, is equal to the second taking-up power Weight coefficient, the first signal weight coefficient are equal to second signal weight coefficient, and the first noise weight coefficient is equal to the second noise weight Coefficient.

8. method according to claim 4 or 5, which is characterized in that the method also includes:

It obtains whether user needs to fix the first customer impact factor that the first earphone is main earphone, and obtains whether user needs Fix the second user influence factor that the second earphone is main earphone；

First user's fixed weight coefficient is distributed for the first customer impact factor, and is the second user influence factor Distribute second user fixed weight coefficient；

It is described to be superimposed each systematic influence factor according to corresponding weight coefficient, it is wrapped as the step of first influence factor It includes: the sum of the systematic influence factor that each systematic influence factor is superimposed according to corresponding weight coefficient, as first system System influence factor, and the first system weight coefficient is distributed for the first system influence factor, and the first system is influenced Factor and the first customer impact factor are superimposed according to corresponding weight coefficient, as first influence factor；

Described to be superimposed each factor according to corresponding weight coefficient, including: as the step of second influence factor will be each The sum of the systematic influence factor that a systematic influence factor is superimposed according to corresponding weight coefficient, as the second system influence because Element, and distribute second system weight coefficient for the second system influence factor, and by the second system influence factor and The second user influence factor is superimposed according to corresponding weight coefficient, as second influence factor.

9. according to the method described in claim 8, it is characterized in that,

If getting user needs to fix the information that the first earphone is main earphone, configuring the first system weight coefficient is zero, is matched Setting first user's fixed weight coefficient is 1, and needs to fix information that the first earphone is main earphone for described first according to user The current state configuration of earphone is main earphone state, configures the current state of second earphone to from earphone state；

If getting user needs to fix the information that the second earphone is main earphone, configuring second system weight coefficient is zero, is matched Setting second user fixed weight coefficient is 1, and needs to fix information that the second earphone is main earphone for described second according to user The current state configuration of earphone is main earphone state, configures the current state of first earphone to from earphone state.

10. a kind of master slave mode distributor of earphone, which is characterized in that described device includes:

Obtain module, for obtaining the first system influence factor of the first earphone, obtain the second system influence of the second earphone because Element；The first system influence factor and the second system influence factor include at least two different systematic influences because Element；

Weight distribution and laminating module, for distributing weight coefficient for each systematic influence factor of the first earphone, and will be each A systematic influence factor is superimposed according to corresponding weight coefficient, as the first influence factor of first earphone, and is second Each systematic influence factor of earphone distributes weight coefficient, and each systematic influence factor is superimposed according to the weight coefficient of distribution, The second influence factor as second earphone；Contrast module, for comparing first influence factor and the second influence Factor；And

Principal and subordinate's earphone state assignment module, for the comparing result according to first influence factor and the second influence factor, Principal and subordinate's earphone state is distributed for the first earphone and the second earphone.