CN106850963A - The call control method and wearable device of a kind of wearable device - Google Patents

Abstract

The present embodiments relate to wearable device technical field, the call control method and wearable device of a kind of wearable device are disclosed, the method includes：When wearable device needs to carry out voice call, start the osteoacusis body part on wearable device, the osteoacusis body part includes bone-conduction microphone and the osteoacusis loudspeaker for realizing bone-conduction mode, it is determined that the second audio signal that the first vibration signal from bone medium is transformed the first audio signal by bone-conduction microphone and osteoacusis loudspeaker are received, according to the first audio signal from bone-conduction microphone, offset the first audio signal included in the second audio signal that osteoacusis loudspeaker are received, obtain the 3rd audio signal, and by the 3rd audio signal be defined as osteoacusis loudspeaker need play voice audio signal.Implementing the embodiment of the present invention can effectively reduce the risk that the voice of broadcasting is eavesdropped by people around, and speech quality is high.

Description

The call control method and wearable device of a kind of wearable device

Technical field

The present invention relates to wearable device technical field, and in particular to the call control method of a kind of wearable device and can Wearable device.

Background technology

Many advantages, such as based on easy to carry and fashion attractive in appearance, in the market is including including intelligent watch, Intelligent bracelet Wearable device is increasingly favored by users.In actual applications, the play mode of wearable device is generally outer Mode playback, when in talking state, wearable device outer can put the voice for receiving, and the voice put outward is easy to be stolen by surrounding Hear, and when the voice put outside wearable device is listened to, wearer can also hear the voice of its own input, i.e. wearer is defeated The voice for entering can be interfered to the voice that wearable device is played, and reduce speech quality.It can be seen that, current wearable device There is a problem of that the risk eavesdropped by people around of voice played and speech quality are low.

The content of the invention

The embodiment of the invention discloses the call control method and wearable device of a kind of wearable device, can effectively drop The risk that the voice of low broadcasting is eavesdropped by people around, and speech quality is high.

Embodiment of the present invention first aspect discloses a kind of call control method of wearable device, and methods described includes：

When the wearable device needs to carry out voice call, start the osteoacusis body on the wearable device Part, the osteoacusis body part includes bone-conduction microphone and the osteoacusis loudspeaker for realizing bone-conduction mode, described The audio signal that bone-conduction mode is used to need to play voice is converted into vibration signal and is transmitted by bone medium；

It is determined that being believed by the first audio that be transformed for the first vibration signal from bone medium by the bone-conduction microphone Number and the second audio signal for receiving of the osteoacusis loudspeaker；

According to first audio signal from the bone-conduction microphone, included in counteracting second audio signal First audio signal, obtain the 3rd audio signal；

3rd audio signal is defined as into the osteoacusis loudspeaker needs to play the audio signal of voice.

As a kind of optional implementation method, in embodiment of the present invention first aspect, when the wearable device needs When carrying out voice call, before the osteoacusis body part on the startup wearable device, methods described also includes：

The ambient noise value of the wearable device local environment is gathered, and judges whether the ambient noise value is more than In default ambient noise value threshold value；

When the ambient noise value is more than or equal to the default ambient noise value threshold value, the connection of the voice call is judged It is whether people is one of them in default contact person；

When one of them in the artificial default contact person of contact of the voice call, triggering performs the startup The operation of the osteoacusis body part on the wearable device.

As a kind of optional implementation method, in embodiment of the present invention first aspect, when the contact of the voice call During one of them in the artificial default contact person, osteoacusis body part on the startup wearable device it Before, methods described also includes：

The first contact area between the osteoacusis body part and wearer is gathered, and judges first contact surface Whether product is more than or equal to the first preset exposure area；

When first contact area is more than or equal to the first preset exposure area, the osteoacusis body is gathered The first contact between part and wearer, and judge first contact whether more than or equal to the first preset exposure pressure Power；

When first contact is more than or equal to the first preset exposure pressure, triggering is performed described in the startup The operation of the osteoacusis body part on wearable device.

Used as a kind of optional implementation method, in embodiment of the present invention first aspect, methods described also includes：

When first contact area is less than institute less than the first preset exposure area or first contact When stating the first preset exposure pressure, whether the use pattern for judging the wearable device is elderly mode or child's pattern；

When the use pattern be the elderly mode or child's pattern when, in advance with the wearable device The mobile terminal device for setting up wireless connection sends adjust request, and the adjust request is used to ask the mobile terminal device Wearing state of the user adjustment wearer for the wearable device；

When the use pattern is not the elderly mode and when not being child's pattern, prompting message, institute are exported State prompting message incorrect for the wearing state of the wearable device for pointing out wearer.

Used as a kind of optional implementation method, in embodiment of the present invention first aspect, methods described also includes：

Gather the second contact area and the second contact between the osteoacusis loudspeaker and wearer；

When second contact area more than or equal to the second preset exposure area and second contact more than etc. When the second preset exposure pressure, the vibration parameters of the vibration signal that adjustment is changed into by the 3rd audio signal are described to shake Dynamic parameter includes Oscillation Amplitude and/or vibration frequency.

Embodiment of the present invention second aspect discloses a kind of wearable device, the wearable device start unit, determination Unit and offset unit, wherein：

The start unit, for when the wearable device needs to carry out voice call, starts described wearable set Standby upper osteoacusis body part, the osteoacusis body part includes bone-conduction microphone and for realizing bone-conduction mode Osteoacusis loudspeaker, the bone-conduction mode be used for will need play voice audio signal be converted into vibration signal and pass through bone Medium is transmitted；

The determining unit, for determining to be converted the first vibration signal from bone medium by the bone-conduction microphone The first audio signal and the second audio signal for receiving of the osteoacusis loudspeaker；

The offset unit, first audio signal from the bone-conduction microphone for basis is offset described First audio signal included in second audio signal, obtains the 3rd audio signal；

The determining unit, be additionally operable to by the 3rd audio signal be defined as the osteoacusis loudspeaker need play voice Audio signal.

Used as a kind of optional implementation method, in embodiment of the present invention first aspect, the wearable device also includes First collecting unit and judging unit, wherein：

First collecting unit, for when the wearable device needs to carry out voice call and in the startup Before osteoacusis body part on wearable device described in unit starting, the environment of the wearable device local environment is gathered Noise figure；

The judging unit, for whether judging the ambient noise value more than or equal to default ambient noise value threshold value, and When the ambient noise value be more than or equal to the default ambient noise value threshold value when, judge the voice call contact person whether To preset one of them in contact person, when one of them in the artificial default contact person of the contact of the voice call When, trigger the start unit and perform the operation for starting the osteoacusis body part on the wearable device.

Used as a kind of optional implementation method, in embodiment of the present invention first aspect, first collecting unit is also used Start when when one of them in the artificial default contact person of contact of the voice call and in the start unit Before osteoacusis body part on the wearable device, first between the osteoacusis body part and wearer is gathered Contact area；

Whether the judging unit, be additionally operable to judge first contact area more than or equal to the first preset exposure area；

First collecting unit, is additionally operable to be more than or equal to the first preset exposure area when first contact area When, gather the first contact between the osteoacusis body part and wearer；

Whether the judging unit, be additionally operable to judge first contact more than or equal to the first preset exposure pressure；

The start unit, specifically for being made an uproar when the wearable device needs to carry out voice call, when the environment When sound value is more than or equal to the default ambient noise value threshold value, when in the artificial default contact person of the contact of the voice call One of them when, connect when first contact area is more than or equal to the first preset exposure area and when described first When touch pressure is more than or equal to the first preset exposure pressure, start the osteoacusis body part on the wearable device.

Used as a kind of optional implementation method, in embodiment of the present invention first aspect, the judging unit is additionally operable to work as First contact area is preset less than the first preset exposure area or first contact less than described first During contact, whether the use pattern for judging the wearable device is elderly mode or child's pattern；

The wearable device also includes communication unit and output unit, wherein：

The communication unit, for when the use pattern is the elderly mode or child's pattern, to pre- The first mobile terminal device for setting up wireless connection with the wearable device sends adjust request, and the adjust request is used to ask Wearing state of the user adjustment wearer of the mobile terminal device for the wearable device；

The output unit, for when the use pattern is not the elderly mode and be not child's pattern When, prompting message is exported, the prompting message is used to point out wearer incorrect for the wearing state of the wearable device.

Used as a kind of optional implementation method, in embodiment of the present invention first aspect, the wearable device also includes Second collecting unit and adjustment unit, wherein：

Second collecting unit, for gather the second contact area between the osteoacusis loudspeaker and wearer and Second contact；

The adjustment unit, for when second contact area is more than or equal to the second preset exposure area and described the When two contacts are more than or equal to the second preset exposure pressure, the vibration signal that adjustment is changed into by the 3rd audio signal Vibration parameters, the vibration parameters include Oscillation Amplitude and/or vibration frequency.

Compared with prior art, the embodiment of the present invention has the advantages that：

In the embodiment of the present invention, when wearable device needs to carry out voice call, the bone started on wearable device is passed Body part is led, the osteoacusis body part includes bone-conduction microphone and the osteoacusis loudspeaker for realizing bone-conduction mode And the audio signal that the bone-conduction mode is used to need to play voice is converted into vibration signal and is transmitted by bone medium, it is determined that The first vibration signal from bone medium is transformed the first audio signal and osteoacusis loudspeaker by bone-conduction microphone The second audio signal for receiving, according to the first audio signal from bone-conduction microphone, offsets osteoacusis loudspeaker and receives The second audio signal in the first audio signal for including, obtain the 3rd audio signal, and the 3rd audio signal is defined as Osteoacusis loudspeaker need to play the audio signal of voice.On this basis, when voice call is carried out, wearer will can wear The a certain finger (such as forefinger) of the arm of wearable device withstands ear root or gos deep into ear so that ear's row is into closed sound Chamber, so that vibration signal can be transmitted to ear by bone medium and cause ear-drum to produce enough resonance, and then can be with The effect of privacy call is reached, the people of surrounding cannot eavesdrop, and wearer can also will wear the arm of wearable device Another finger (such as thumb or little finger of toe) is at the chin or face of wearer, so that wearer is input into shaking for voice Dynamic signal is transmitted to bone-conduction microphone along finger and is converted into audio signal, the audio signal pair converted by osteoacusis wheat wind The audio signal that osteoacusis loudspeaker are received carries out counteracting treatment, and wearable device is played with the voice for reducing wearer's input The interference that causes of voice, improve speech quality.It can be seen that, implementing the embodiment of the present invention can effectively reduce the voice quilt of broadcasting The risk of people around's eavesdropping, and speech quality is high.

Brief description of the drawings

Technical scheme in order to illustrate more clearly the embodiments of the present invention, below by to be used needed for embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present invention, for ability For the those of ordinary skill of domain, on the premise of not paying creative work, can also obtain other attached according to these accompanying drawings Figure.

Fig. 1 be disclosed in the embodiment of the present invention it is a kind of by wearable product be tightly attached to ear listen to play sound signal Figure；

Fig. 2 is a kind of schematic flow sheet of the call control method of wearable device disclosed in the embodiment of the present invention；

Fig. 3 is the schematic flow sheet of the call control method of another wearable device disclosed in the embodiment of the present invention；

Fig. 4 is a kind of schematic diagram that voice call is carried out using wearable device disclosed in the embodiment of the present invention；

Fig. 5 is a kind of structural representation of wearable device disclosed in the embodiment of the present invention；

Fig. 6 is the structural representation of another wearable device disclosed in the embodiment of the present invention；

Fig. 7 is the structural representation of another wearable device disclosed in the embodiment of the present invention；

Fig. 8 is the structural representation of another wearable device disclosed in the embodiment of the present invention.

Specific embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete Site preparation is described, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole embodiments.Based on this Embodiment in invention, the every other reality that those of ordinary skill in the art are obtained under the premise of creative work is not made Example is applied, the scope of protection of the invention is belonged to.

The embodiment of the invention discloses the call control method and wearable device of a kind of wearable device, can be by bone Conduction mode plays voice, effectively reduces the risk that the voice of broadcasting is eavesdropped by people around, and can also be by osteoacusis wheat The audio signal of wind conversion carries out counteracting treatment to the audio signal that osteoacusis loudspeaker are received, to reduce the language of wearer's input The interference that sound is caused to the voice that wearable device is played, improves speech quality.It is described in detail individually below.

Embodiment one

Fig. 2 is referred to, Fig. 2 is that a kind of flow of the call control method of wearable device is shown disclosed in the embodiment of the present invention It is intended to.As shown in Fig. 2 the call control method of the wearable device can include following operation：

201st, when wearable device needs to carry out voice call, wearable device starts the osteoacusis on wearable device Body part, the osteoacusis body part includes bone-conduction microphone and the osteoacusis loudspeaker for realizing bone-conduction mode.

In the embodiment of the present invention, wearable device can be including the wearable product including intelligent watch, Intelligent bracelet, this Inventive embodiments are not construed as limiting.Wherein, the bone-conduction mode is used to that the audio signal for playing voice will to be needed to be converted into vibration letter Number and transmitted by bone medium, the bone-conduction microphone be used for by bone medium receive wearer be input into voice vibration signal simultaneously Vibration signal from bone medium is converted into audio signal.It should be noted that the osteoacusis loudspeaker and osteoacusis Mike Wind is installed in the bottom of wearable device, so that the osteoacusis loudspeaker and the bone when wearer correctly wears wearable device Conduction microphone can be contacted with the skin of wearer, this ensure that the osteoacusis loudspeaker can be by bone medium to wearing Person plays needs the voice and the bone-conduction microphone of broadcasting to be able to detect that wearer is input into the vibration signal of voice.

In the embodiment of the present invention, relative to the mode that voice call is carried out under existing play mode as shown in Figure 1 Speech, a certain finger (such as forefinger) that wearer can will wear the arm of wearable device withstands ear root or gos deep into ear So that ear's row is into closed sound chamber so that the vibration signal changed into by osteoacusis loudspeaker can by bone medium transmit to Ear simultaneously causes ear-drum to produce enough resonance, and then can reach the effect that privacy is conversed, and the people of surrounding cannot eavesdrop, and Wearer can also will wear the chin or mouth of another finger (such as little finger of toe) near wearer of the arm of wearable device Ba Chu, so that the vibration signal of wearer's input voice is transmitted to bone-conduction microphone along finger and turned by bone-conduction microphone Audio signal is turned to, such that it is able to reduce the interference that ambient noise is input into voice to wearer, speech quality is improve, wherein, The schematic diagram for carrying out voice call by the call control method of the wearable device described by Fig. 2 can be with as shown in figure 4, Fig. 4 It is a kind of schematic diagram that voice call is carried out using wearable device disclosed in the embodiment of the present invention.

202nd, wearable device is determined the first vibration signal conversion from bone medium by above-mentioned bone-conduction microphone Into the second audio signal for receiving of the first audio signal and above-mentioned osteoacusis loudspeaker.

In the embodiment of the present invention, the second audio signal that above-mentioned osteoacusis loudspeaker are received not only includes carrying out voice call The audio signal of voice that sends over of contact person, will also be from the first of bone medium the vibration including above-mentioned bone-conduction microphone The first audio signal that signal is transformed.

In the embodiment of the present invention, the first vibration signal from bone medium that above-mentioned bone-conduction microphone is received not only is wrapped Include the vibration signal that wearer is input into voice, it is also possible to the vibration signal including a small amount of ambient noise, it is also possible to further include Other signals of bone medium transmission, play the vibration signal of voice the need for such as being transmitted by bone medium, now, wearable to set It is standby to need to perform noise reduction operation to the first audio signal changed into by the first vibration signal, to filter except wearer is input into voice Audio signal outside other audio signals, obtain the first audio signal after noise reduction, and by the first audio after the noise reduction Signal is defined as the first audio signal during subsequent operation.

203rd, wearable device is offset above-mentioned bone and is passed according to above-mentioned first audio signal from above-mentioned bone-conduction microphone The first audio signal included in the second audio signal that loudspeaker are received is led, the 3rd audio signal is obtained.

In the embodiment of the present invention, specifically, wearable device can will be opposite with above-mentioned first audio signal Oscillation Amplitude And vibration frequency identical audio signal and above-mentioned first audio signal carry out audio signal overlap-add operation, with by this with it is above-mentioned First audio signal Oscillation Amplitude is opposite and vibration frequency identical audio signal balances out what above-mentioned osteoacusis loudspeaker were received Useless audio signal in above-mentioned second audio signal, can so reduce the voice of wearer's input to wearable device needs Interference caused by the voice of broadcasting, improves speech quality when wearer carries out voice call, and then improve wearer Experience.

204th, above-mentioned 3rd audio signal is defined as osteoacusis loudspeaker by wearable device needs the audio for playing voice to believe Number.

In the embodiment of the present invention, specifically, needing to play language above-mentioned 3rd audio signal is defined as into osteoacusis loudspeaker After the audio signal of sound, above-mentioned 3rd audio signal is converted into the second vibration by wearable device by above-mentioned osteoacusis loudspeaker Signal is simultaneously transmitted into the ear of wearer by bone medium (wrist and withstand ear root or go deep into the finger of ear).

In an optional embodiment, after performing step 202 and before step 203 is performed, this is wearable The call control method of equipment can also include following operation：

Whether wearable device is judged in the second audio signal that above-mentioned osteoacusis loudspeaker are received comprising above-mentioned first sound Frequency signal, when judged result is to be, triggering performs step 203；When judged result is no, this flow can be terminated.

Further alternative in the optional embodiment, wearable device judges what above-mentioned osteoacusis loudspeaker were received Whether can include comprising above-mentioned first audio signal in second audio signal：

Wearable device analyzes the second audio signal that above-mentioned osteoacusis loudspeaker are received, and obtains the sound of the second audio signal Line feature, and judge to whether there is and the vocal print feature phase pre-set for wearer in the vocal print feature of the second audio signal The vocal print feature of matching, when judged result is to be, determines to be included in the second audio signal that above-mentioned osteoacusis loudspeaker are received Above-mentioned first audio signal, when judged result for it is no when, determine in the second audio signal that above-mentioned osteoacusis loudspeaker are received not Comprising above-mentioned first audio signal；Or,

Wearable device analyzes the second audio content of the second audio signal that above-mentioned osteoacusis loudspeaker are received and above-mentioned First audio content of the first audio signal, and judge the second audio content with the presence or absence of matching with the first audio content or phase With audio content, when judged result is to be, determine in the second audio signal that above-mentioned osteoacusis loudspeaker are received comprising upper The first audio signal is stated, when judged result is no, determines not wrapped in the second audio signal that above-mentioned osteoacusis loudspeaker are received Containing above-mentioned first audio signal.

The optional embodiment can determine the language that wearable device needs the voice played to be subject to wearer's input Just being performed during the interference of sound goes interference to operate.

It can be seen that, the call control method for implementing the wearable device described by Fig. 2 can be passed by osteoacusis loudspeaker and bone The mode for leading microphone work simultaneously effectively reduces the risk that the voice of broadcasting is eavesdropped by people around, reduces ambient noise to wearing The interference of the voice that the voice of interference and wearer's input of the voice of wearer's input is played to wearable device, improves logical Words quality, further increases call experience.

Embodiment two

Fig. 3 is referred to, Fig. 3 is that a kind of flow of the call control method of wearable device is shown disclosed in the embodiment of the present invention It is intended to.As shown in figure 3, the call control method of the wearable device can include following operation：

301st, when wearable device needs to carry out voice call, wearable device collection wearable device local environment Ambient noise value.

302nd, whether wearable device judges the ambient noise value for collecting more than or equal to default ambient noise value threshold value.

In the embodiment of the present invention, when the judged result of step 302 is to be, triggering performs step 303；When step 302 When judged result is no, can directly terminate this flow, it is also possible to which directly triggering performs step 303, and the embodiment of the present invention is not Limit.

303rd, wearable device judge to need the contact person of voice call for carrying out whether be in default contact person wherein One.

In the embodiment of the present invention, when the judged result of step 303 is to be, triggering performs step 304；When step 303 When judged result is no, this flow can be terminated.

In the embodiment of the present invention, the default contact person can carry out secret the need for prestoring in wearable device to lead to The contact person of words, specifically, different default contact persons can be set in different places, for example, at job site, The default contact person can be important family and friends, and when place is lived, the default contact person can be important work Partner etc., the embodiment of the present invention is not limited.

304th, wearable device starts the osteoacusis body part on wearable device, and the osteoacusis body part includes bone Conduction microphone and the osteoacusis loudspeaker for realizing bone-conduction mode.

305th, wearable device determines that be transformed for the first vibration signal from bone medium by above-mentioned bone-conduction microphone The first audio signal and the second audio signal for receiving of above-mentioned osteoacusis loudspeaker.

In the embodiment of the present invention, the first vibration signal from bone medium that above-mentioned bone-conduction microphone is received not only is wrapped Include the vibration signal that wearer is input into voice, it is also possible to the vibration signal including a small amount of ambient noise, it is also possible to further include Other signals of bone medium transmission, play the vibration signal of voice the need for such as being transmitted by bone medium, now, wearable to set It is standby to need to perform noise reduction operation to the first audio signal changed into by the first vibration signal, to filter except wearer is input into voice Audio signal outside other audio signals, obtain the first audio signal after noise reduction, and by the first audio after the noise reduction Signal is defined as the first audio signal during subsequent operation.

306th, wearable device is offset above-mentioned bone and is passed according to above-mentioned first audio signal from above-mentioned bone-conduction microphone The first audio signal included in the second audio signal that loudspeaker are received is led, the 3rd audio signal is obtained.

307th, above-mentioned 3rd audio signal is converted into the second vibration signal by wearable device by above-mentioned osteoacusis loudspeaker.

308th, between the above-mentioned osteoacusis loudspeaker of wearable device collection and wearer the second contact area and second connects Touch pressure.

309th, when above-mentioned second contact area is big more than or equal to the second preset exposure area and above-mentioned second contact When equal to the second preset exposure pressure, wearable device adjusts the vibration parameters of the vibration signal of above-mentioned second vibration signal, The second vibration signal after being adjusted.

In the embodiment of the present invention, when above-mentioned second contact area is more than or equal to the second preset exposure area and above-mentioned second When contact is more than or equal to the second preset exposure pressure, wearable device confirms that osteoacusis loudspeaker are contacted with the skin of wearer Well, the transmission quality of bone medium is high, then wearable device can suitably weaken the vibration parameters of above-mentioned second vibration signal, this Sample can reduce the power consumption of wearable device.

In the embodiment of the present invention, after the second vibration signal after being adjusted, above-mentioned osteoacusis loudspeaker pass through bone medium Vibration signal after this is adjusted is transmitted to the ear of wearer.

In an optional embodiment, when the judged result of step 303 is to be and before step 304 is performed, should The call control method of wearable device can also include following operation：

Wearable device gathers the first contact area between above-mentioned osteoacusis body part and wearer, and judge this Whether one contact area is more than or equal to the first preset exposure area；

When first contact area is more than or equal to the first preset exposure area, wearable device gathers above-mentioned osteoacusis body The first contact between body component and wearer, and judge first contact whether more than or equal to the first preset exposure Pressure；

When first contact is more than or equal to the first preset exposure pressure, triggering performs step 304.

In the optional embodiment, because osteoacusis body part needs to be contacted with wearer's skin to realize leading to The function that bone medium transmits vibration signal is crossed, therefore, osteoacusis body part is directly affected with the exposure level of wearer's skin Bone medium transmits the quality of vibration signal.The optional embodiment can be by connecing between osteoacusis body part and wearer Touch parameter (the first contact area and the first contact) to judge whether wearable device is worn correctly, you can wearable device Whether contacted well with the skin of wearer, and when the first contact area is more than or equal to the first preset exposure area and when first When contact is more than or equal to the first preset exposure pressure, wearable device determines that it is worn correctly.It should be noted that due to Osteoacusis body part includes osteoacusis loudspeaker and bone-conduction microphone, therefore, above-mentioned first contact includes osteoacusis loudspeaker The contact and wearer between and the contact between bone-conduction microphone and wearer, above-mentioned first contact surface Product includes the contact area between contact area and bone-conduction microphone and wearer between osteoacusis loudspeaker and wearer, Above-mentioned first preset exposure pressure is included for the preset exposure pressure of osteoacusis loudspeaker and for the pre- of bone-conduction microphone If contact, above-mentioned first preset exposure area is included for the preset exposure area of osteoacusis loudspeaker and for osteoacusis The preset exposure area of microphone, and when the contact between osteoacusis loudspeaker and wearer is more than or equal to for osteoacusis loudspeaker Contact between preset exposure pressure and bone-conduction microphone and wearer is more than or equal to for osteoacusis Mike During the preset exposure pressure of wind, above-mentioned first contact is just more than or equal to above-mentioned first preset exposure pressure, when osteoacusis loudspeaker Contact area and wearer between is more than or equal to the preset exposure area for osteoacusis loudspeaker and for osteoacusis wheat During the preset exposure area of gram wind, above-mentioned first contact area is just more than or equal to above-mentioned first preset exposure area.

Further alternative in the optional embodiment, the call control method of the wearable device can also include Hereinafter operate：

When above-mentioned first contact area less than above-mentioned first preset exposure area or above-mentioned first contact less than upper When stating the first preset exposure pressure, wearable device judges whether the use pattern of wearable device is elderly mode or child Pattern；

When wearable device use pattern be elderly mode or child's pattern when, wearable device in advance with can wear The mobile terminal device that the equipment of wearing sets up wireless connection sends adjust request, and the adjust request is used to ask mobile terminal device Wearing state of the user adjustment wearer for wearable device；

When the use pattern of wearable device is not elderly mode and nor during child's pattern, wearable device output Prompting message, the prompting message is used to point out wearer incorrect for the wearing state of wearable device.

The optional embodiment can directly be reminded in the case where wearable device is not by correct being worn wearer or The user of the mobile terminal device for having binding relationship with wearable device is directly reminded, can so be avoided because of wearable device not The low problem of speech quality caused by correctly being worn.

It can be seen that, the call control method of the wearable device described by implementing Fig. 3 can be passed by osteoacusis loudspeaker and bone The mode for leading microphone work simultaneously effectively reduces the risk that the voice of broadcasting is eavesdropped by people around, reduces ambient noise to wearing The interference of the voice that the voice of interference and wearer's input of the voice of wearer's input is played to wearable device, improves logical Words quality, further increases call experience.

Embodiment three

Fig. 5 is referred to, Fig. 5 is a kind of structural representation of wearable device disclosed in the embodiment of the present invention.Wherein, Fig. 5 Described wearable device 500 can for intelligent watch, Intelligent bracelet in interior wearable product, the embodiment of the present invention is not made Limit.As shown in figure 5, the wearable device 500 can include start unit 501, determining unit 502 and offset unit 503, Wherein：

Start unit 501 is used to, when wearable device 500 needs to carry out voice call, start on wearable device 500 Osteoacusis body part, the osteoacusis body part can include bone-conduction microphone and for realizing bone-conduction mode Osteoacusis loudspeaker, the bone-conduction mode is used to that the audio signal for playing voice will to be needed to be converted into vibration signal and by bone medium Transmission.

Determining unit 502 is used to determine by above-mentioned bone-conduction microphone by the first vibration signal conversion from bone medium Into the second audio signal for receiving of the first audio signal and above-mentioned osteoacusis loudspeaker.

In the embodiment of the present invention, specifically, start unit 501 is after above-mentioned osteoacusis body part is started, to determination Unit 502 sends triggering command, and the triggering command is used to trigger determining unit 502 and perform to determine above-mentioned bone-conduction microphone in the future The second sound that the first audio signal and above-mentioned osteoacusis loudspeaker being transformed from the first vibration signal of bone medium are received The operation of frequency signal.

In the embodiment of the present invention, it is necessary to explanation, above-mentioned bone-conduction microphone receive from bone medium first Vibration signal not only includes that wearer is input into the vibration signal of voice, it is also possible to the vibration signal including a small amount of ambient noise, also Other signals of bone medium transmission may be further included, the vibration signal of voice is played the need for such as being transmitted by bone medium Deng now, wearable device needs to perform the first audio signal for being changed into by the first vibration signal noise reduction operation, to filter Other audio signals in addition to the audio signal of wearer's input voice, obtain the first audio signal after noise reduction, and should The first audio signal after noise reduction is defined as the first audio signal during subsequent operation.

Offset unit 503 is used to, according to the first audio signal from above-mentioned bone-conduction microphone, offset above-mentioned osteoacusis The first audio signal included in the second audio signal that loudspeaker are received, obtains the 3rd audio signal.

In the embodiment of the present invention, specifically, offset unit 503 can will be opposite with above-mentioned first audio signal Oscillation Amplitude And vibration frequency identical audio signal and above-mentioned first audio signal carry out audio signal overlap-add operation, with by this with it is above-mentioned First audio signal Oscillation Amplitude is opposite and vibration frequency identical audio signal balances out what above-mentioned osteoacusis loudspeaker were received Useless audio signal in above-mentioned second audio signal, can so reduce the voice of wearer's input to wearable device needs Interference caused by the voice of broadcasting, improves speech quality when wearer carries out voice call, and then improve wearer Experience.

Determining unit 502 is additionally operable to for the 3rd audio signal that offset unit 503 is obtained to be defined as above-mentioned osteoacusis loudspeaker Need the audio signal of broadcasting voice.

In the embodiment of the present invention, determining unit 502 by above-mentioned 3rd audio signal be defined as above-mentioned loudspeaker need play Trigger above-mentioned osteoacusis loudspeaker after the audio signal of voice above-mentioned 3rd audio signal is converted into the second vibration signal and is led to Cross the transmission of bone medium.

In an optional embodiment, the wearable device 500 can also include the first collecting unit 504 and judge Unit 505, now, the structure of the wearable device 500 can be with as shown in fig. 6, Fig. 6 be another kind disclosed in the embodiment of the present invention The structural representation of wearable device.Wherein：

First collecting unit 504 is used for when wearable device 500 needs to carry out voice call and in start unit 501 Before starting the osteoacusis body part on wearable device 500, the ambient noise of the local environment of wearable device 500 is gathered Value.

Whether judging unit 505 is used to judging ambient noise value that the first collecting unit 504 collects more than or equal to presetting Ambient noise value threshold value, and when the ambient noise value that the first collecting unit 504 is collected is more than or equal to default ambient noise value threshold During value, whether the contact person for judging the voice call is one of them in default contact person, as the contact person of the voice call To preset during one of them in contact person, triggering start unit 501 performs the osteoacusis on above-mentioned startup wearable device 500 The operation of body part.

In the optional embodiment, further optionally, the first collecting unit 504 can be also used for when above-mentioned voice During one of them in the artificial default contact person of contact of call and start on wearable device 500 in start unit 501 Before osteoacusis body part, the first contact area between above-mentioned osteoacusis body part and wearer is gathered.

Judging unit 505 can be also used for judging whether is above-mentioned first contact area that the first collecting unit 504 collects More than or equal to the first preset exposure area.

First collecting unit 504 can be also used for judging that above-mentioned first contact area is more than or equal to when judging unit 505 During the first preset exposure area, the first contact between above-mentioned osteoacusis body part and wearer is gathered.

Judging unit 505 can be also used for judging whether the first contact that the first collecting unit 504 is collected is more than Equal to the first preset exposure pressure.

Start unit 501 specifically for when wearable device needs to carry out voice call, when above-mentioned ambient noise value it is big When equal to default ambient noise value threshold value, when one of them in the artificial default contact person of contact of above-mentioned voice call, When above-mentioned first contact area is more than or equal to the first preset exposure area and when above-mentioned first contact is more than or equal to the During one preset exposure pressure, start the osteoacusis body part on wearable device 500.

Further optional, judging unit 505 can also be used to be less than the first preset exposure when above-mentioned first contact area When area or above-mentioned first contact are less than the first preset exposure pressure, judging the use pattern of wearable device 500 is It is no for elderly mode or child's pattern.And the wearable device 500 can also include communication unit 506 and output unit 507, now, the structure of the wearable device 500 can be with as shown in fig. 7, Fig. 7 be that have one kind can to wear disclosed in the embodiment of the present invention Wear the structural representation of equipment.Wherein：

Communication unit 506 be used for when wearable device 500 use pattern be elderly mode or child's pattern when, to The mobile terminal device for setting up wireless connection with wearable device 500 in advance sends adjust request, wherein, the adjust request is used for The user adjustment wearer of mobile terminal device is asked for the wearing state of wearable device.

Output unit 507 is used for the use pattern when wearable device 500 neither elderly mode is nor child's mould During formula, prompting message is exported, wherein, the prompting message is used for the wearing state for pointing out wearer to be directed to wearable device 500 not Correctly.

Further optional, the wearable device 500 can also include the second collecting unit 507 and adjustment unit 508, now, the structure of the wearable device 500 can be with as shown in figure 8, Fig. 8 be that another can wear disclosed in the embodiment of the present invention Wear the structural representation of equipment.Wherein：

The second contact area that second collecting unit 507 is used to gather between above-mentioned osteoacusis loudspeaker and wearer and the Two contacts.

In the embodiment of the present invention, specifically, above-mentioned 3rd audio signal is defined as above-mentioned osteoacusis loudspeaker by determining unit 502 Need export voice audio signal after, to the second collecting unit 507 send triggering command, the triggering command be used for trigger Second collecting unit 507 gathers the second contact area and the second contact between above-mentioned osteoacusis loudspeaker and wearer.

The second contact area that adjustment unit 508 is used to be collected when the second collecting unit 507 is preset more than or equal to second Contact area and when the second contact that the second collecting unit 507 is collected be more than or equal to the second preset exposure pressure when, adjust The vibration parameters of the whole vibration signal changed into by the 3rd audio signal, wherein, the vibration parameters can include vibration signal Oscillation Amplitude and/or vibration frequency.

It can be seen that, the wearable device 500 implemented described by Fig. 5 any one of-Fig. 8 can be by osteoacusis loudspeaker and osteoacusis The mode that microphone works simultaneously effectively reduces the risk that the voice of broadcasting is eavesdropped by people around, reduces ambient noise to wearing The interference of the voice that the voice of interference and wearer's input of the voice of person's input is played to wearable device, improves call Quality, further increases call experience.

One of ordinary skill in the art will appreciate that all or part of step in the various methods of above-described embodiment is can Completed with instructing the hardware of correlation by program, the program can be stored in a computer-readable recording medium, storage Medium include read-only storage (Read-Only Memory, ROM), random access memory (Random Access Memory, RAM), programmable read only memory (Programmable Read-only Memory, PROM), erasable programmable is read-only deposits Reservoir (Erasable Programmable Read Only Memory, EPROM), disposable programmable read-only storage (One- Time Programmable Read-Only Memory, OTPROM), the electronics formula of erasing can make carbon copies read-only storage (Electrically-Erasable Programmable Read-Only Memory, EEPROM), read-only optical disc (Compact Disc Read-Only Memory, CD-ROM) or other disk storages, magnetic disk storage, magnetic tape storage or can For carrying or computer-readable any other medium of data storage.

The call control method and wearable device to a kind of wearable device disclosed in the embodiment of the present invention are carried out above It is discussed in detail, specific case used herein is set forth to principle of the invention and implementation method, above example Explanation be only intended to help and understand the method for the present invention and its core concept；Simultaneously for those of ordinary skill in the art, According to thought of the invention, will change in specific embodiments and applications, in sum, in this specification Appearance should not be construed as limiting the invention.

Claims (10)

1. a kind of call control method of wearable device, it is characterised in that methods described includes：

When the wearable device needs to carry out voice call, start the osteoacusis body part on the wearable device, The osteoacusis body part includes bone-conduction microphone and the osteoacusis loudspeaker for realizing bone-conduction mode, and the bone is passed The audio signal that waveguide mode is used to need to play voice is converted into vibration signal and is transmitted by bone medium；

It is determined that by the first audio signal that is transformed for the first vibration signal from bone medium by the bone-conduction microphone with And the second audio signal that the osteoacusis loudspeaker are received；

According to first audio signal from the bone-conduction microphone, the institute included in second audio signal is offset The first audio signal is stated, the 3rd audio signal is obtained；

3rd audio signal is defined as into the osteoacusis loudspeaker needs to play the audio signal of voice.

2. method according to claim 1, it is characterised in that when the wearable device needs to carry out voice call, Before the osteoacusis body part started on the wearable device, methods described also includes：

The ambient noise value of the wearable device local environment is gathered, and judges the ambient noise value whether more than or equal to pre- If ambient noise value threshold value；

When the ambient noise value is more than or equal to the default ambient noise value threshold value, the contact person of the voice call is judged Whether it is one of them in default contact person；

When one of them in the artificial default contact person of contact of the voice call, triggering is performed described in the startup The operation of the osteoacusis body part on wearable device.

3. method according to claim 2, it is characterised in that when the artificial default contact of the contact of the voice call During one of them in people, before the osteoacusis body part on the startup wearable device, methods described also includes：

The first contact area between the osteoacusis body part and wearer is gathered, and judges that first contact area is It is no to be more than or equal to the first preset exposure area；

When first contact area is more than or equal to the first preset exposure area, gather the osteoacusis body part with The first contact between wearer, and judge first contact whether more than or equal to the first preset exposure pressure；

When first contact is more than or equal to the first preset exposure pressure, triggering is performed can wear described in the startup Wear the operation of the osteoacusis body part in equipment.

4. method according to claim 3, it is characterised in that methods described also includes：

When first contact area less than the first preset exposure area or first contact less than described the During one preset exposure pressure, whether the use pattern for judging the wearable device is elderly mode or child's pattern；

When the use pattern be the elderly mode or child's pattern when, in advance with the wearable device set up The mobile terminal device of wireless connection sends adjust request, and the adjust request is used to ask the user of the mobile terminal device Wearing state of the adjustment wearer for the wearable device；

When the use pattern is not the elderly mode and when not being child's pattern, prompting message is exported, it is described to carry Show that message is incorrect for the wearing state of the wearable device for pointing out wearer.

5. the method according to claim any one of 1-4, it is characterised in that methods described also includes：

Gather the second contact area and the second contact between the osteoacusis loudspeaker and wearer；

When second contact area more than or equal to the second preset exposure area and second contact more than or equal to the During two preset exposure pressure, the vibration parameters of the vibration signal that adjustment is changed into by the 3rd audio signal, the vibration ginseng Number includes Oscillation Amplitude and/or vibration frequency.

6. a kind of wearable device, it is characterised in that the wearable device includes start unit, determining unit and offsets single Unit, wherein：

The start unit, for when the wearable device needs to carry out voice call, starting on the wearable device Osteoacusis body part, the osteoacusis body part include bone-conduction microphone and the bone for realizing bone-conduction mode Conduction loudspeaker, the bone-conduction mode is used to that the audio signal for playing voice will to be needed to be converted into vibration signal and by bone medium Transmission；

The determining unit, for determining the first vibration signal from bone medium is transformed by the bone-conduction microphone The first audio signal and the second audio signal for receiving of the osteoacusis loudspeaker；

The offset unit, first audio signal from the bone-conduction microphone for basis offsets described second First audio signal included in audio signal, obtains the 3rd audio signal；

The determining unit, be additionally operable to by the 3rd audio signal be defined as the osteoacusis loudspeaker need play voice sound Frequency signal.

7. wearable device according to claim 6, it is characterised in that the wearable device also includes that the first collection is single Unit and judging unit, wherein：

First collecting unit, for when the wearable device needs to carry out voice call and in the start unit Before starting the osteoacusis body part on the wearable device, the ambient noise of the wearable device local environment is gathered Value；

Whether the judging unit, for judging the ambient noise value more than or equal to default ambient noise value threshold value, and works as institute When stating ambient noise value more than or equal to the default ambient noise value threshold value, whether the contact person for judging the voice call is pre- If one of them in contact person, when one of them in the artificial default contact person of contact of the voice call, touch The operation of the osteoacusis body part for sending out described on the start unit execution startup wearable device.

8. wearable device according to claim 7, it is characterised in that first collecting unit, is additionally operable to when described Can be worn described in starting during one of them in the artificial default contact person of contact of voice call and in the start unit Before wearing the osteoacusis body part in equipment, the first contact surface between the osteoacusis body part and wearer is gathered Product；

Whether the judging unit, be additionally operable to judge first contact area more than or equal to the first preset exposure area；

First collecting unit, is additionally operable to when first contact area is more than or equal to the first preset exposure area, Gather the first contact between the osteoacusis body part and wearer；

Whether the judging unit, be additionally operable to judge first contact more than or equal to the first preset exposure pressure；

The start unit, specifically for when the wearable device needs to carry out voice call, when the ambient noise value During more than or equal to the default ambient noise value threshold value, when its in the artificial default contact person of contact of the voice call In one when, when first contact area be more than or equal to the first preset exposure area when and when described first contact pressure When power is more than or equal to the first preset exposure pressure, start the osteoacusis body part on the wearable device.

9. wearable device according to claim 8, it is characterised in that the judging unit, is additionally operable to when described first Contact area is less than the first preset exposure pressure less than the first preset exposure area or first contact When, whether the use pattern for judging the wearable device is elderly mode or child's pattern；

The wearable device also includes communication unit and output unit, wherein：

The communication unit, for when the use pattern be the elderly mode or child's pattern when, in advance with The mobile terminal device that the wearable device sets up wireless connection sends adjust request, and the adjust request is used to ask described Wearing state of the user adjustment wearer of mobile terminal device for the wearable device；

The output unit, for when the use pattern be not the elderly mode and when not being child's pattern, it is defeated Go out prompting message, the prompting message is used to point out wearer incorrect for the wearing state of the wearable device.

10. the wearable device according to claim any one of 7-9, it is characterised in that the wearable device also includes Second collecting unit and adjustment unit, wherein：

Second collecting unit, for gathering the second contact area and second between the osteoacusis loudspeaker and wearer Contact；

The adjustment unit, for being connect more than or equal to the second preset exposure area and described second when second contact area When touch pressure is more than or equal to the second preset exposure pressure, the vibration of the vibration signal that adjustment is changed into by the 3rd audio signal Parameter, the vibration parameters include Oscillation Amplitude and/or vibration frequency.