CN106385658A - Smart glasses microphone acoustic performance regulation method and smart glasses - Google Patents

Abstract

The present invention discloses smart glasses microphone acoustic performance regulation method and smart glasses. The technical problem is solved that the recording sound is not harmonious by using the current smart glasses. The method comprises: receiving sound signals collected by a microphone; identifying the classification of the sound signals based on the vocal print features of the sound signals; sending the identified part belonging to the environment sound signals into a first equalizer to allow the frequency response curve of the first equalizer for regulating the identified part belonging to the environment sound signals to be consistent to a first object frequency response curve; and sending the identified part belonging to the wearer sound signals into a second equalizer to allow the frequency response curve of the second equalizer of the wearer sound signal part to be consistent to a second target frequency response curve, so that two equalizers are configured to respectively regulate the frequency response features of the wearer sound signals and the environment sound signals according to the different features of the wearer sound signals and the environment sound signals to reach the technical effect that the recording effect of the two parts of the sound signals are more harmonious.

Description

The microphone acoustic property regulation method of intelligent glasses and intelligent glasses

Technical field

The invention belongs to intelligent glasses technical field, specifically, it is to be related to a kind of microphone acoustic of intelligent glasses Can control method and intelligent glasses.

Background technology

Intelligent glasses are additionally provided the functions such as shooting, recording simultaneously and are extensively answered possessing glasses function due to it With.

When possessing sound-recording function, intelligent glasses need to have the mike that can record.Mike is typically mounted on intelligence On the picture frame of energy glasses, the acoustical signal of collection is divided into the sound that the acoustical signal of intelligent glasses surrounding and wearer send Message number.

Because intelligent glasses are worn on face, mike in collected sound signal, wearer's face nose, face Deng position presence can be formed one be different from environmental sound field special sound field so that wearer's acoustical signal sound field characteristic with The sound field characteristic of environmental sound signal is inconsistent, and this can lead to the sound effect recorded to sound inharmonious.

Content of the invention

This application provides a kind of microphone acoustic property regulation method of intelligent glasses and intelligent glasses, solve existing intelligence Can there is recorded voice inharmonic technical problem during glasses recording.

For solving above-mentioned technical problem, the application employs the following technical solutions and is achieved：

A kind of microphone acoustic property regulation method of intelligent glasses is proposed, including：Receive the acoustical signal of mike collection；Base Classification in the vocal print feature described acoustical signal of identification of described acoustical signal；Will identify that belongs to environmental sound signal part Send into the first equalizer so that described first equalizer adjusts frequency response curve and the first object of described environmental sound signal part Frequency response curve is consistent；The wearer's sound signal components that belong to that will identify that send into the second equalizer so that described second equalizes The frequency response curve that device adjusts described wearer's sound signal components is consistent with the second target frequency response curve.

Further, before receiving the acoustical signal of mike collection, methods described also includes：Record wearer's sound Signal；Described wearer's vocal print feature is analyzed based on wearer's acoustical signal and records.

Further, the described vocal print feature based on described acoustical signal identifies the classification of described acoustical signal, specially： Analyze the vocal print feature of described acoustical signal based on described acoustical signal；Judge the vocal print feature of described acoustical signal and described pendant Wearer's vocal print feature whether there is same section；If so, corresponding for same section sound signal components are categorized as wearer's sound Sound signal section.

Further, will identify that belong to environmental sound signal part send into the first equalizer after, methods described is also Including：Adjust the gain increasing described environmental sound signal part.

Further, methods described also includes：Preserve the described environmental sound signal part that described first equalizer is adjusted, And preserve described wearer's sound signal components that described second equalizer is adjusted；And/or, by described environmental sound signal portion Divide and described wearer's sound signal components are sent to the terminal being connected with described intelligent glasses.

Propose a kind of intelligent glasses, including mike, for collected sound signal, also include：Acoustical signal identification module, First equalizer and the second equalizer；Described acoustical signal identification module, for receiving the acoustical signal of described mike collection, Vocal print feature based on described acoustical signal identifies the classification of described acoustical signal；Described first equalizer, described for receiving What acoustical signal identification module identified belongs to environmental sound signal part, and the frequency response adjusting described environmental sound signal part is bent Line is consistent with first object frequency response curve；Described second equalizer, for receiving what described acoustical signal identification module identified Belong to wearer's sound signal components, adjust frequency response curve and the second target frequency response curve of described wearer's sound signal components Unanimously.

Further, described intelligent glasses also include vocal print feature extraction module and the first memory module；Described vocal print is special Levy extraction module, for receiving the acoustical signal of described mike collection, analyze the vocal print feature of described acoustical signal；Described One memory module, for storing the vocal print feature of wearer's acoustical signal of described vocal print feature extraction module analysis；Wherein, institute State wearer's acoustical signal to be gathered by described mike.

Further, described acoustical signal identification module includes vocal print feature contrast module；Described vocal print feature contrasts mould Block, the vocal print feature of the described acoustical signal for being analyzed based on described vocal print feature extraction module, judge described acoustical signal Vocal print feature and described wearer's vocal print feature whether there is same section, if so, then described acoustical signal identification module will Same section is categorized as wearer's sound signal components.

Further, described first equalizer also includes gain amplifier；Described gain amplifier, increases for adjusting The gain of described environmental sound signal part.

Further, described intelligent glasses also include the second memory module and/or data transmission module；Described second deposits Storage module, for preserving the described environmental sound signal part that described first equalizer is adjusted, and preserves described second equilibrium Described wearer's sound signal components that device is adjusted；Described data transmission module, for by described second memory module memory storage Described environmental sound signal part and described wearer's sound signal components send to the terminal being connected with described intelligent glasses.

Compared with prior art, the advantage of the application and good effect are：The mike of the intelligent glasses that the application proposes Acoustical property adjustments method and intelligent glasses, increase acoustical signal identification function and difference in the intelligent glasses have mike Carry out the first equalizer and second equalizer of audio regulation for ambient sound and wearer's sound, when mike collects After acoustical signal, identified the wearer's acoustical signal in acoustical signal first according to vocal print feature by acoustical signal identification module With component environment sound signal components, then using the audio of the first equalizer adjusting ambient sound signal components, using second Equalizer adjusts the audio of wearer's sound signal components so that the frequency of environmental sound signal part shows curve and first object frequency Ring curve consistent so that the frequency response curve of wearer's sound signal components is consistent with the second target frequency response curve, here first Target frequency response curve and the second target frequency response curve pre-set according to actual demand, therefore, through the first equalizer and Second equalizer adjust wearer's sound signal components and environmental sound signal part respectively with first object frequency response curve and After second frequency response curve is consistent, that is, reach the audio effect of setting, reach the technique effect of recording effect coordination, solve existing There is recorded voice inharmonic technical problem during intelligent glasses recording.

After the detailed description of the application embodiment is read in conjunction with the accompanying, other features of the application and advantage will become more Plus it is clear.

Brief description

The flow chart of the microphone acoustic property regulation method of the intelligent glasses that Fig. 1 proposes for the application；

The system framework figure of the intelligent glasses that Fig. 2 proposes for the application.

Specific embodiment

Below in conjunction with the accompanying drawings the specific embodiment of the application is described in more detail.

Intelligent glasses with mike, the sound of recording is made up of two parts：Sound and pendant that wearer's mouth sends The sound of wearer's surrounding.Under normal circumstances, wearer's surrounding, especially dead ahead, residing sound field can be approximate As free field, and the presence at the position such as wearer's face nose, face forms a special sound field, due to wearer's face Sound field characteristic differ with surrounding sound field characteristic, so the effect recording wearer's sound and surrounding sound is not The same.

Its difference form of expression is：When recording wearer's sound, wearer's nose and facial muscle can hinder the biography of sound Broadcast, the sound of low frequency part has longer wavelength, its diffracting power relatively strong it is easier to travel to the mike of intelligent glasses, On the contrary, the sound diffracting power of HFS is weak, travels to decay during mike more；And when recording surrounding sound, sound The propagation of sound is substantially interference-free；Therefore, the Frequency Response of wearer's sound and ambient sound differs, the sound showing Effect is just inharmonious, and when only the two Frequency Response is similar, the sound effect that intelligent glasses are recorded just can be coordinated.

Based on above-mentioned, the microphone acoustic property regulation method of the intelligent glasses that the application proposes, as shown in figure 1, including Following steps：

Step S11：Receive the acoustical signal of mike collection.

The acoustical signal of mike collection includes wearer's acoustical signal and/or environmental sound signal；That is, Mike's elegance The acoustical signal collecting is probably single wearer's acoustical signal, is probably single environmental sound signal, is also likely to be pendant Wearer's acoustical signal and the superposed signal of environmental sound signal.

Step S12：Vocal print feature based on acoustical signal identifies the classification of acoustical signal.

After receiving acoustical signal, analysis obtains the vocal print feature of acoustical signal, judges the vocal print feature of acoustical signal Whether there is same section with wearer's vocal print feature, if so, be categorized as wearing by corresponding for same section sound signal components Person's sound signal components.

If that is, the vocal print feature of acoustical signal include with wearer's vocal print feature coincide part, will with wear The corresponding acoustical signal of vocal print feature of the identical part of person's vocal print feature is identified as wearer's acoustical signal, will not be with wearer's sound The corresponding acoustical signal of vocal print feature of the identical part of stricture of vagina feature is identified as environmental sound signal.

Therefore, before step S11, one section of wearer's acoustical signal can be prerecorded, analysis obtains wearer's vocal print Feature simultaneously records the basic feature as identification.

Step S13：The environmental sound signal part that belongs to that will identify that sends into the first equalizer so that the first equalizer is adjusted The frequency response curve of section environmental sound signal part is consistent with first object frequency response curve.

Step S14：The wearer's sound signal components that belong to that will identify that send into the second equalizer so that the second equalizer The frequency response curve adjusting wearer's sound signal components is consistent with the second target frequency response curve.

Step S13 and step S14 do not limit enforcement order in actual applications.

First object frequency response curve and the second target frequency response curve are set in advance according to actual demand, will have difference Wearer's acoustical signal of Frequency Response and environmental sound signal, are respectively fed to different equalizer and are adjusted according to respective standard Section, reaches the audio effect of setting, also just reaches the technique effect of recording effect coordination, when solving existing intelligent glasses recording There is the inharmonic technical problem of recorded voice.

During first equalizer and the regulation of the second equalizer, the frequency response curve of target frequency response curve and actual signal Difference is the part that equalizer needs debugging.

First equalizer is adjusted for environmental sound signal part, because environmental sound signal compares wearer's sound The volume of signal is less, therefore, by adjusting the gain increasing this environmental sound signal part, reaches environmental sound signal part On the basis of volume and the not lofty effect of wearer's sound signal components volume difference, then adjust frequency response curve, sound can be reached Audio fruit more coordinates the effect of more optimization.

Second equalizer is adjusted for wearer's sound signal components, according to aforementioned known, wearer's acoustical signal Partial character of frequency response is, the gain of high-frequency signal part is less than the gain of low frequency signal part, therefore, the second equalizer Main regulation is so that low-and high-frequency fractionated gain is similar, and, such sound effect consistent with the second target frequency response curve Just coordinate most.

After step S14, preserve or keep in the environmental sound signal part that the first equalizer is adjusted, and preserve second Wearer's sound signal components that equalizer is adjusted；In the terminal needs being connected with wired or wireless mode with intelligent glasses When, can send and use for terminal to terminal, for example wireless interconnected with the intelligent glasses smart mobile phone of this terminal, computer etc..

Above-mentioned, in intelligent glasses, acoustical signal is identified by vocal print feature, the acoustical signal that mike is collected divides From obtaining wearer's sound signal components and environmental sound signal part, adjusted using equalizer respectively for two parts, thus Realize making the technique effect of the recording result more coordination of two parts acoustical signal.

Based on the microphone acoustic property regulation method of intelligent glasses set forth above, the application also proposes a kind of Brilliant Eyes Mirror, as shown in Fig. 2 this intelligent glasses includes the mike 21 for collected sound signal, acoustical signal identification module 22, first Equalizer 23 and the second equalizer 24.

Acoustical signal identification module 22 is used for receiving the acoustical signal of mike 21 collection, and the vocal print based on acoustical signal The classification of feature identification acoustical signal；First equalizer 23 is used for receiving that acoustical signal identification module 22 identifies belongs to environment Sound signal components, the frequency response curve of adjusting ambient sound signal components is consistent with first object frequency response curve；Second equalizer 24 are used for receiving that acoustical signal identification module 22 identifies belongs to wearer's sound signal components, adjust wearer's acoustical signal Partial frequency response curve is consistent with the second target frequency response curve.

This intelligent glasses also includes vocal print feature extraction module 25 and the first memory module 26；Vocal print feature extraction module 25 For receiving the acoustical signal of mike 21 collection, the vocal print feature of analysis acoustical signal；First memory module 26 is used for storing The vocal print feature of wearer's acoustical signal of vocal print feature extraction module 25 analysis；Wherein, wearer's acoustical signal is by mike Gather the vocal print feature obtaining wearer for the analysis of vocal print feature extraction module in advance, and record in the first memory module.

Acoustical signal identification module 22 has specifically included vocal print Characteristic Contrast module 221, for being extracted based on vocal print feature The vocal print feature of the acoustical signal of module 25 analysis, judges that the vocal print feature of acoustical signal and wearer's vocal print feature whether there is Same section, if so, then same section is categorized as wearer's sound signal components by acoustical signal identification module.

First equalizer 23 also includes gain amplifier 231；Gain amplifier 231 is used for adjusting increase ambient sound message The gain of number part.

This intelligent glasses also includes the second memory module 27 and/or data transmission module 28；Second memory module 27 is used In the environmental sound signal part preserving the first equalizer regulation, and preserve wearer's acoustical signal that the second equalizer is adjusted Part；Data transmission module 28, such as WIFI module, bluetooth module etc., for by the environment of the second memory module 27 memory storage Sound signal components and wearer's sound signal components are sent to the terminal 31 being connected with intelligent glasses, process for terminal 31 or Use.

This intelligent glasses, is accomplished that mike comprises to gather the sound letter of surrounding and/or wearer's acoustical signal Number, identify wearer's sound signal components and/or environmental sound signal based on analyzing the wearer's vocal print feature obtaining in advance Part, the Frequency Response using the first equalizer adjusting ambient acoustical signal is consistent with the characteristic of the first frequency response curve, adopts The Frequency Response that two equalizer adjust wearer's acoustical signal is consistent with the Frequency Response of the second target frequency response curve, to reach two The technique effect of the recording result of partial sound signal more coordination.

The operation principle of specific intelligent glasses and process are in the microphone acoustic property regulation of above-mentioned intelligent glasses Describe in detail in method, it will not go into details herein.

It should be noted that described above is not limitation of the present invention, the present invention is also not limited to the example above, Change, remodeling, interpolation or replacement that those skilled in the art are made in the essential scope of the present invention, also should Belong to protection scope of the present invention.

Claims (10)

1. the microphone acoustic property regulation method of intelligent glasses is it is characterised in that include：

Receive the acoustical signal of mike collection；

Vocal print feature based on described acoustical signal identifies the classification of described acoustical signal；

The environmental sound signal part that belongs to that will identify that sends into the first equalizer so that described first equalizer adjusts described ring The frequency response curve of border sound signal components is consistent with first object frequency response curve；

The wearer's sound signal components that belong to that will identify that send into the second equalizer so that described second equalizer regulation is described The frequency response curve of wearer's sound signal components is consistent with the second target frequency response curve.

2. the microphone acoustic property regulation method of intelligent glasses according to claim 1 is it is characterised in that receiving wheat Before the acoustical signal of gram elegance collection, methods described also includes：

Record wearer's acoustical signal；

Described wearer's vocal print feature is analyzed based on wearer's acoustical signal and records.

3. the microphone acoustic property regulation method of intelligent glasses according to claim 2 is it is characterised in that described be based on The vocal print feature of described acoustical signal identifies the classification of described acoustical signal, specially：

Analyze the vocal print feature of described acoustical signal based on described acoustical signal；

Judge that the vocal print feature of described acoustical signal and described wearer's vocal print feature whether there is same section；

If so, corresponding for same section sound signal components are categorized as wearer's sound signal components.

4. the microphone acoustic property regulation method of intelligent glasses according to claim 1 will be it is characterised in that will identify Go out belong to environmental sound signal part send into the first equalizer after, methods described also includes：

Adjust the gain increasing described environmental sound signal part.

5. the microphone acoustic property regulation method of intelligent glasses according to claim 1 is it is characterised in that methods described Also include：

Preserve the described environmental sound signal part that described first equalizer is adjusted, and preserve what described second equalizer was adjusted Described wearer's sound signal components；And/or,

Described environmental sound signal part and described wearer's sound signal components are sent to being connected with described intelligent glasses Terminal.

6. a kind of intelligent glasses, including mike, for collected sound signal it is characterised in that also including：Acoustical signal identifies Module, the first equalizer and the second equalizer；

Described acoustical signal identification module, for receiving the acoustical signal of described mike collection, based on described acoustical signal Vocal print feature identifies the classification of described acoustical signal；

Described first equalizer, belongs to environmental sound signal part for receive that described acoustical signal identification module identifies, The frequency response curve adjusting described environmental sound signal part is consistent with first object frequency response curve；

Described second equalizer, belongs to wearer's acoustical signal portion for receive that described acoustical signal identification module identifies Point, the frequency response curve adjusting described wearer's sound signal components is consistent with the second target frequency response curve.

7. intelligent glasses according to claim 6 extract mould it is characterised in that described intelligent glasses also include vocal print feature Block and the first memory module；

Described vocal print feature extraction module, for receiving the acoustical signal of described mike collection, analyzes described acoustical signal Vocal print feature；

Described first memory module, the vocal print for storing wearer's acoustical signal of described vocal print feature extraction module analysis is special Levy；Wherein, described wearer's acoustical signal is gathered by described mike.

8. intelligent glasses according to claim 7 are it is characterised in that described acoustical signal identification module includes vocal print feature Contrast module；

Described vocal print feature contrast module, the vocal print of the described acoustical signal for being analyzed based on described vocal print feature extraction module Feature, judges that the vocal print feature of described acoustical signal whether there is same section with described wearer's vocal print feature, if so, then institute State acoustical signal identification module and same section is categorized as wearer's sound signal components.

9. intelligent glasses according to claim 6 are it is characterised in that described first equalizer also includes gain amplification Device；

Described gain amplifier, for adjusting the gain increasing described environmental sound signal part.

10. intelligent glasses according to claim 6 are it is characterised in that described intelligent glasses also include the second storage mould Block and/or data transmission module；

Described second memory module, for preserving the described environmental sound signal part that described first equalizer is adjusted, Yi Jibao Deposit described wearer's sound signal components that described second equalizer is adjusted；

Described data transmission module, for by the described environmental sound signal part of described second memory module memory storage and described Wearer's sound signal components are sent to the terminal being connected with described intelligent glasses.