CN104182039A - Equipment control method and device as well as electronic equipment - Google Patents

Abstract

The invention discloses an equipment control method and device as well as electronic equipment, and belongs to the field of equipment control. The method comprises the steps as follows: a sound wave signal is received, wherein the sound wave signal comprises at least one signal section which comprises a sound wave signal section and a sound-wave-free signal section; a combination mode of the signal sections is determined and used for representing respective duration of each signal section; the corresponding relation between the combination mode and control commands is inquired according to the determined combination mode so as to determine the control command corresponding to the combination mode; and the control command is executed. The equipment control method and device are used for controlling the electronic equipment through sound wave signals, the problem that an operation process is more complicated due to the fact that a user needs to be contacted with the electronic equipment and needs to perform multiple steps of operation such as unlocking, selection and the like manually when controlling the electronic equipment to achieve certain function in the correlation technique is solved, user operation is simplified, the operating mode is extended, and the effect of user experience is improved.

Description

Apparatus control method, device and electronic equipment

Technical field

The disclosure relates to equipment control field, relates in particular to a kind of apparatus control method, device and electronic equipment.

Background technology

Along with the development of computing machine and electronic technology, intelligentized electronic equipment brings great convenience to daily life.

User conventionally need to by touch or the mode control electronic equipment of button when realizing corresponding function.Such as, taking electronic equipment as smart mobile phone, the mobile terminal such as panel computer or E-book reader is as example, user can by touch electronic equipment screen or press physical button in electronic equipment control electronic equipment realize take pictures, the function such as recording and audio frequency and video broadcasting.

Realizing in process of the present disclosure, find that correlation technique at least exists following problem:

User is by touching and when button controls electronic equipment and realizes some functions, must can touching electronic equipment, and need manually to carry out the multistep operations such as release, selection, and operating process is complexity comparatively, affects user's experience.

Summary of the invention

In order to solve in correlation technique user in the time controlling electronic equipment and realize some functions, electronic equipment must can be touched, and need manually to carry out the multistep operations such as release, selection, thereby cause the comparatively complicated problem of operating process, disclosure embodiment provides a kind of apparatus control method, device and electronic equipment.Described technical scheme is as follows:

First aspect, provides a kind of apparatus control method, and described method comprises:

Receive acoustic signals, comprise at least one signal segment in described acoustic signals, described signal segment includes the signal segment of sound wave and the signal segment without sound wave;

Determine the array mode of described at least one signal segment, described array mode is for representing the described each signal segment of at least one signal segment lasting duration separately;

According to fixed described array mode, the corresponding relation between array mode and steering order that inquiry is set up in advance, to determine the steering order corresponding with described fixed described array mode;

Carry out described steering order.

Optionally, the described array mode of determining described at least one signal segment, comprising:

Determine the duration feature of described signal segment according to the lasting duration of described signal segment, described duration feature comprises long input or short input;

According to the received sequencing of each described signal segment in described acoustic signals, the duration feature of each described signal segment is arranged, obtain described array mode.

Optionally, before determining the array mode of described at least one signal segment, described method also comprises:

Whether the attribute value that detects the sound wave in described acoustic signals is within the scope of predetermined value, and wherein said attribute value comprises frequency numerical value and/or amplitude numerical value;

If the attribute value of the sound wave in described acoustic signals within the scope of described predetermined value, is carried out the step of the described array mode of determining described at least one signal segment.

Optionally, before determining the array mode of described at least one signal segment, described method also comprises:

Described acoustic signals is carried out to Application on Voiceprint Recognition, obtain the first vocal print feature;

Whether detect described the first vocal print feature mates with the second vocal print feature setting in advance;

If described the first vocal print feature and described the second vocal print characteristic matching, carry out the step of the described array mode of determining described at least one signal segment.

Optionally, before described acoustic signals is carried out to Application on Voiceprint Recognition, described method also comprises:

Receive the sound wave that arranges of input;

The described sound wave that arranges is carried out to Application on Voiceprint Recognition;

The vocal print feature that identification obtains is set to described the second vocal print feature.

Optionally, before described reception acoustic signals, described method also comprises:

Set up the corresponding relation between described array mode and described steering order according to user's setting.

Second aspect, provides a kind of plant control unit, and described device comprises:

Acoustic signals receiver module, for receiving acoustic signals, comprises at least one signal segment in described acoustic signals, described signal segment includes the signal segment of sound wave and the signal segment without sound wave;

Combination determination module, for determining the array mode of described at least one signal segment, described array mode is for representing the described each signal segment of at least one signal segment lasting duration separately;

Enquiry module, for according to fixed described array mode, inquires about the corresponding relation between array mode and the steering order of setting up in advance, to determine the steering order corresponding with described fixed described array mode;

Execution module, for carrying out described steering order.

Optionally, described combination determination module, comprising:

Feature is determined submodule, and for determine the duration feature of described signal segment according to the lasting duration of described signal segment, described duration feature comprises long input or short input;

Arrange submodule, for according to the received sequencing of the each described signal segment of described acoustic signals, the duration feature of each described signal segment being arranged, obtain described array mode.

Optionally, described device also comprises:

Attribute value detection module, before determining the array mode of described at least one signal segment at described combination determination module, whether the attribute value that detects the sound wave in described acoustic signals is within the scope of predetermined value, and wherein said attribute value comprises frequency numerical value and/or amplitude numerical value;

Described combination determination module, if the attribute value of the sound wave that is described acoustic signals for the testing result of described attribute value detection module within the scope of described predetermined value, is carried out the step of the described array mode of determining described at least one signal segment.

Optionally, described device also comprises:

The first identification module, before determining the array mode of described at least one signal segment at described combination determination module, carries out Application on Voiceprint Recognition to described acoustic signals, obtains the first vocal print feature;

Whether matching detection module, mate with the second vocal print feature setting in advance for detection of described the first vocal print feature;

Described combination determination module, if be described the first vocal print feature and described the second vocal print characteristic matching for the testing result of described matching detection module, carries out the step of the described array mode of determining described at least one signal segment.

Optionally, described device also comprises:

Sound wave receiver module is set, before described acoustic signals being carried out to Application on Voiceprint Recognition at described the first identification module, receives the sound wave that arranges of input;

The second identification module, for carrying out Application on Voiceprint Recognition to the described sound wave that arranges;

Module is set, and the vocal print feature obtaining for described the second identification module identification is set to described the second vocal print feature.

Optionally, described device also comprises:

Set up module, for set up the corresponding relation between described array mode and described steering order according to user's setting.

The third aspect, provides a kind of electronic equipment, and described electronic equipment comprises:

Processor;

For storing the storer of described processor executable;

Wherein, described processor is configured to:

Receive acoustic signals, comprise at least one signal segment in described acoustic signals, described signal segment includes the signal segment of sound wave and the signal segment without sound wave;

Determine the array mode of described at least one signal segment, described array mode is for representing the described each signal segment of at least one signal segment lasting duration separately;

According to fixed described array mode, the corresponding relation between array mode and steering order that inquiry is set up in advance, to determine the steering order corresponding with described fixed described array mode;

Carry out described steering order.

The technical scheme that disclosure embodiment provides can be brought following beneficial effect:

By determining the array mode of at least one signal segment comprising in acoustic signals, inquire about corresponding steering order and carry out according to fixed array mode, user only need to input sound wave, do not need manually to operate, even do not need contacting electronic equipments can control electronic equipment, solve in correlation technique user in the time controlling electronic equipment and realize some functions, electronic equipment must can be touched, and need manually to carry out release, the multistep operations such as selection, thereby the problem that the operating process causing is comparatively complicated, reach and simplify user's operation, extended operation mode, improve the effect that user experiences.

Should be understood that, it is only exemplary and explanatory that above general description and details are hereinafter described, and can not limit the disclosure.

Brief description of the drawings

Accompanying drawing is herein merged in instructions and forms the part of this instructions, shows and meets embodiment of the present disclosure, and be used from and explain principle of the present disclosure with instructions one.

Fig. 1 is according to the process flow diagram of a kind of apparatus control method shown in an exemplary embodiment;

Fig. 2 is according to the process flow diagram of a kind of apparatus control method shown in another exemplary embodiment;

Fig. 3 is according to the process flow diagram of a kind of apparatus control method shown in another exemplary embodiment;

Fig. 4 arranges interface schematic diagram according to the one shown in another exemplary embodiment;

Fig. 5 arranges interface schematic diagram according to the another kind shown in another exemplary embodiment;

Fig. 6 is according to the schematic diagram of a kind of plant control unit shown in an exemplary embodiment;

Fig. 7 is according to the schematic diagram of a kind of plant control unit shown in another exemplary embodiment;

Fig. 8 is according to the block diagram of a kind of electronic equipment shown in an exemplary embodiment.

Embodiment

Here will at length describe exemplary embodiment, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless separately there is expression, the same numbers in different accompanying drawings represents same or analogous key element.Embodiment described in following exemplary embodiment does not represent all embodiments consistent with the disclosure.On the contrary, they are only and equipment as consistent in some aspects that described in detail in appended claims, of the present disclosure and the example of method.

Fig. 1 is according to the process flow diagram of a kind of apparatus control method shown in an exemplary embodiment, as shown in Figure 1, this apparatus control method is for intelligentized electronic equipments such as smart mobile phone, panel computer, E-book reader, intelligent television, intelligent bracelet, TV set-top box, router, electronic toys.This apparatus control method can comprise the following steps:

In step 102, receive acoustic signals, in this acoustic signals, comprise at least one signal segment, this signal segment includes the signal segment of sound wave and the signal segment without sound wave;

In step 104, determine the array mode of this at least one signal segment, this array mode is for representing the each signal segment of this at least one signal segment lasting duration separately;

In step 106, according to fixed this array mode, the corresponding relation between array mode and steering order that inquiry is set up in advance, to determine the steering order corresponding with this fixed this array mode;

In step 108, carry out this steering order.

In sum, apparatus control method shown in this exemplary embodiment, by determining the array mode of at least one signal segment comprising in acoustic signals, inquire about corresponding steering order and carry out according to fixed array mode, user only need to input sound wave, do not need manually to operate, even do not need contacting electronic equipments can control electronic equipment, solve in correlation technique user in the time controlling electronic equipment and realize some functions, electronic equipment must can be touched, and need manually to carry out release, the multistep operations such as selection, thereby the problem that the operating process causing is comparatively complicated, reach and simplify user's operation, extended operation mode, improve the effect that user experiences.

Fig. 2 is according to the process flow diagram of a kind of apparatus control method shown in another exemplary embodiment, as shown in Figure 2, this apparatus control method is for controlling electronic equipment, and this electronic equipment can be smart mobile phone, panel computer, E-book reader, intelligent television, intelligent bracelet, TV set-top box, router, electronic toy etc.This apparatus control method can comprise the following steps:

In step 202, receive acoustic signals, in acoustic signals, comprise at least one signal segment, signal segment includes the signal segment of sound wave and the signal segment without sound wave;

Electronic equipment, can be according to having or not sound wave that acoustic signals is divided into several signal segments in the time of the acoustic signals listening to, every adjacent two without between the signal segment of sound wave being a signal segment that has sound wave.

It should be noted that, this acoustic signals can be people's acoustical signal that user oneself sends, also can be that user sends acoustic signals by other sounding instrument, such as, in the time that user presses the physical button in the intelligent bracelet being worn in wrist, intelligence bracelet can send the lasting signal segment that has sound wave, until user discharges physical button.For the occurring mode of acoustic signals, this exemplary embodiment does not limit.

In step 204, whether the attribute value that detects the sound wave in this acoustic signals within the scope of predetermined value, if so, enters step 206;

Wherein, this attribute value comprises frequency numerical value and/or amplitude numerical value;

In the surrounding enviroment of electronic equipment, may there is very many sound waves, in these sound waves only some be user input for controlling the sound wave of electronic equipment, other sound wave is the noise in physical environment, in order to distinguish noise and to control sound wave, the attribute value scope of effective sound wave can be set.Such as, it is effective sound wave that the sound wave of frequency in default frequency separation can be set; Or it is effective sound wave that the sound wave of amplitude in default amplitude interval is set; Or, frequency is set in default frequency separation, and the sound wave of amplitude in default amplitude interval is effective sound wave.In the time that electronic equipment detects the sound wave comprising in the acoustic signals receiving and is effective sound wave, enter subsequent step.If electronic equipment detects the attribute value of acoustic wave segment in acoustic signals not within the scope of predetermined value, the acoustic signals receiving can be abandoned, do not carry out subsequent treatment.

Optionally, owing to may comprising multiple signal segments that have sound wave in the acoustic signals receiving, may occur that the acoustic wave segment in acoustic signals is effective sound wave, and the sound wave of remainder is the situation of invalid sound wave.If electronic equipment detects the attribute value of acoustic wave segment in acoustic signals not within the scope of predetermined value, can also filter each sound wave in acoustic signals, the signal segment that invalid sound wave is corresponding is set to the signal segment without sound wave, and carries out subsequent step according to the acoustic signals after filtering.

In step 206, determine the array mode of this at least one signal segment, this array mode is for representing the each signal segment of at least one signal segment lasting duration separately;

In the time determining the array mode of this at least one signal segment, electronic equipment can be determined according to the lasting duration of this signal segment the duration feature of this signal segment, and this duration feature comprises long input or short input; Electronic equipment is arranged the duration feature of each this signal segment according to the received sequencing of each this signal segment in this acoustic signals, obtains this array mode.

Electronic equipment is in the time determining the duration feature of signal segment, and the duration feature that lasting duration can be greater than to the signal segment of scheduled duration threshold value is defined as long input, and the duration feature that lasting duration is not more than to the signal segment of scheduled duration threshold value is defined as short input.

Electronic equipment can be to having the signal segment of sound wave and processing respectively without the signal segment of sound wave.For the signal segment that has sound wave, can be greater than duration threshold value t by continuing duration ₁the duration feature of signal segment be defined as long input, will continue duration and be not more than duration threshold value t ₁the duration feature of signal segment be defined as short input; For the signal segment without sound wave, can be greater than duration threshold value t by continuing duration ₂the duration feature of signal segment be defined as long input, will continue duration and be not more than duration threshold value t ₂the duration feature of signal segment be defined as short input.Wherein, t ₁with t ₂value can be identical, also can be different.

In the acoustic signals receiving, a signal segment without sound wave can be considered as once suspending, and the signal segment without sound wave that duration is characterized as long input suspends for long, and the signal segment without sound wave that duration is characterized as short input is of short duration stopping.In addition, first in acoustic signals has the signal segment of sound wave can give tacit consent to before and has a long time-out.

In the time that the duration feature at least one signal segment sorts, can only sort to the duration feature of the signal segment that has sound wave, and according to long time-out, the duration feature of the signal segment that has sound wave after sequence is separated, at least one comprising between every adjacent two long time-outs has the sequence of the duration feature of the signal segment of sound wave to be considered as a Feature Combination, in the array mode of final this at least one signal segment of determining, at least comprises such Feature Combination.The manifestation mode of each Feature Combination can be as follows:

In the time only comprising a signal segment that has a sound wave between two long time-outs, characteristic of correspondence is combined as: long input or short input;

In the time comprising two signal segments that have a sound wave between two long time-outs, characteristic of correspondence combination can be: long input+long input, and short input+short input, long input+short input, or short input+length is inputted;

In the time comprising three signal segments that have a sound wave between two long time-outs, characteristic of correspondence combination can be that the difference of three duration features is arranged, in the time comprising four signal segments that have a sound wave between two long time-outs, characteristic of correspondence combination can be that the difference of four duration features is arranged, by that analogy.

In actual applications, when at least one comprising between definite every adjacent two long time-outs has the Feature Combination of signal segment of sound wave, also can not arrange duration feature, only there is the duration feature of the signal segment of sound wave to count at least one comprising between adjacent two long time-outs, using the combination of the number of different duration features, as this, at least one has the Feature Combination of the signal segment of sound wave, such as:

In the time only comprising a signal segment that has a sound wave between two long time-outs, this Feature Combination is: long input or short input;

In the time comprising two signal segments that have a sound wave between two long time-outs, this Feature Combination can be: two long inputs, and two short inputs, or, a long input+mono-short input;

In the time comprising three signal segments that have a sound wave between two long time-outs, this Feature Combination can be: three long inputs, and three short inputs, two long input+mono-short inputs, or, a long input+two short input, by that analogy.

It should be noted that, above-mentionedly duration feature is not arranged, only there is the duration feature of the signal segment of sound wave to count at least one comprising between adjacent two long time-outs, when using the combination of the number of different duration features as this, at least one has the Feature Combination of signal segment of sound wave, if while comprising at least two Feature Combinations in the array mode of acoustic signals, still need to sort to these two Feature Combinations according to the sequencing that receives signal segment.

This exemplary embodiment such scheme is only illustrated the duration feature of signal segment is divided into long input and the short example that is input as, in actual applications, also can carry out according to actual needs the division of duration feature, such as, only divide a kind of duration feature, quantity with the signal segment that has sound wave is distinguished different array modes, or, divide three kinds of duration features, each signal segment is divided into short input, middle input and long input etc. according to lasting duration, for the division methods of the duration feature of signal segment, this exemplary embodiment does not limit.

In step 208, according to fixed array mode, the corresponding relation between array mode and steering order that inquiry is set up in advance, to determine the steering order corresponding with fixed array mode;

In the time determining steering order corresponding to array mode, can there is the Feature Combination inquiry of the signal segment of sound wave to determine a steering order according at least one comprising between adjacent two long time-outs.

Electronic equipment can set in advance the corresponding relation between each Feature Combination and steering order, such as, the duration feature of signal segment is divided into two kinds of long input and short inputs, having the duration feature of the signal segment of sound wave to arrange acquisition array mode according to the sequencing that receives each signal segment each is example, the Feature Combination of two long inputs can correspondence be opened camera, the Feature Combination of two short inputs can correspondingly be opened sound-recording function, the Feature Combination of long input+short input can correspondence be closed quarter-bell, the Feature Combination of short input+length input can correspondence be opened music player etc.

In step 210, carry out this steering order.

In the time determining the Feature Combination that comprises two or more in the array mode of at least one signal segment in acoustic signals, can, according to the putting in order of this two or more Feature Combinations, carry out successively the steering order that these two or more Feature Combinations are corresponding.

Take electronic equipment as example as smart mobile phone, the input mode of signal segment is divided into two kinds of long input and short inputs, having the duration feature of the signal segment of sound wave to arrange acquisition array mode according to the sequencing that receives each signal segment each is example, the Feature Combination correspondence that sets in advance long input+short input in smart mobile phone is closed alarm, the Feature Combination correspondence of short input+length input is opened music player functionality, user Xiao Wang is placed on smart mobile phone on desk in bed, after early morning, Xiao Wang heard the quarter-bell of smart mobile phone, send the acoustic signals that long input+of short duration stopping+short input+length is suspended, smart mobile phone listens to this acoustic signals, and resolve after the array mode of each signal segment in this acoustic signals, inquire about corresponding steering order for closing quarter-bell, smart mobile phone stops quarter-bell according to this steering order.When Xiao Wang gets up breakfast, want to play music and regulate mood, send the acoustic signals that short input+of short duration stopping+grow input+length is suspended, smart mobile phone listens to this acoustic signals, and resolve after the array mode of each signal segment in this acoustic signals, inquire about corresponding steering order for opening music player, smart mobile phone is opened music player and plays music according to this steering order.In this process, user does not need smart mobile phone to touch or button operation, does not even need to touch smart mobile phone and can complete conventional operation, has improved greatly the property easy to use of smart mobile phone, improves user and experiences.

In sum, apparatus control method shown in this exemplary embodiment, by determining the array mode of at least one signal segment comprising in acoustic signals, inquire about corresponding steering order and carry out according to fixed array mode, user only need to input sound wave, do not need manually to operate, even do not need contacting electronic equipments can control electronic equipment, solve in correlation technique user in the time controlling electronic equipment and realize some functions, electronic equipment must can be touched, and need manually to carry out release, the multistep operations such as selection, thereby the problem that the operating process causing is comparatively complicated, reach and simplify user's operation, extended operation mode, improve the effect that user experiences.

Secondly, apparatus control method shown in this exemplary embodiment, before determining the array mode of at least one signal segment, first whether detect the frequency of acoustic signals and/or amplitude in preset range, if so, carry out next step operation, thereby can distinguish noise and control acoustic signals, avoid the interference of ambient sound, improve control accuracy and user and experience.

Fig. 3 is according to the process flow diagram of a kind of apparatus control method shown in another exemplary embodiment, as shown in Figure 3, this apparatus control method is for controlling electronic equipment according to acoustic signals, and this electronic equipment can be smart mobile phone, panel computer, E-book reader, intelligent television, intelligent bracelet, TV set-top box, router, electronic toy etc.People's acoustical signal of sending taking this acoustic signals as user is example, and this apparatus control method can comprise the following steps:

In step 302, receive acoustic signals, in acoustic signals, comprise at least one signal segment, signal segment includes the signal segment of sound wave and the signal segment without sound wave;

Electronic equipment, can be according to having or not sound wave that acoustic signals is divided into several signal segments in the time of the acoustic signals listening to, every adjacent two without between the signal segment of sound wave being a signal segment that has sound wave.

It should be noted that, this acoustic signals can be people's acoustical signal that user oneself sends, also can be that user sends acoustic signals by other sounding instrument, such as, in the time that user presses the physical button in the intelligent bracelet being worn in wrist, intelligence bracelet can send the lasting signal segment that has sound wave, until user discharges physical button.To be only people's acoustical signal of sending of user oneself taking acoustic signals describe as example the following step of this exemplary embodiment.

In step 304, whether the attribute value that detects the sound wave in this acoustic signals within the scope of predetermined value, if so, enters step 306;

Wherein, this attribute value comprises frequency numerical value and/or amplitude numerical value;

In the surrounding enviroment of electronic equipment, may there is very many sound waves, in these sound waves only some be user input for controlling the sound wave of electronic equipment, other acoustic signals is the noise in physical environment, in order to distinguish noise and to control sound wave, the attribute value scope of effective sound wave can be set.Such as, it is effective sound wave that the sound wave of frequency in default frequency separation can be set; Or it is effective sound wave that the sound wave of amplitude in default amplitude interval is set; Or, frequency is set in default frequency separation, and the sound wave of amplitude in default amplitude interval is effective sound wave.In the time that electronic equipment detects the sound wave comprising in the acoustic signals receiving and is effective sound wave, enter subsequent step.If electronic equipment detects the attribute value of acoustic wave segment in acoustic signals not within the scope of predetermined value, the acoustic signals receiving can be abandoned, do not carry out subsequent treatment.

Optionally, owing to may comprising multiple signal segments that have sound wave in the acoustic signals receiving, may occur that the acoustic wave segment in acoustic signals is effective sound wave, and the sound wave of remainder is the situation of invalid sound wave.If electronic equipment detects the attribute value of acoustic wave segment in acoustic signals not within the scope of predetermined value, can also filter each sound wave in acoustic signals, the signal segment that invalid sound wave is corresponding is set to the signal segment without sound wave, and carries out subsequent step according to the acoustic signals after filtering.

In step 306, this acoustic signals is carried out to voice print matching;

When this acoustic signals be user oneself send people's acoustical signal time, the acoustic signals that the user that the sound sending for fear of other people sends user controls electronic equipment forms interference, improve the security of user profile simultaneously, can also carry out voice print matching to this acoustic signals, only have voice print matching success, just carry out subsequent operation.

Whether, in the time carrying out voice print matching, electronic equipment first-selection is carried out Application on Voiceprint Recognition to this acoustic signals, obtain the first vocal print feature, and detect this first vocal print feature and mate with the second vocal print feature setting in advance; If the first vocal print feature and the second vocal print characteristic matching, carry out subsequent step.

Wherein, this the second vocal print feature can be arranged by user in advance voluntarily, such as, electronic equipment can receive the sound wave that arranges of input, this arranges sound wave is that the sound wave that user oneself sends is set, electronic equipment carries out Application on Voiceprint Recognition to sound wave is set, and the vocal print feature that identification obtains is set to the second vocal print feature.

In actual applications, the execution sequence of above-mentioned steps 304 and step 306 in no particular order, can first carry out Application on Voiceprint Recognition, after identifying successfully, carry out again the detection of frequency and amplitude, or, also can carry out the detection of Application on Voiceprint Recognition and frequency and amplitude simultaneously, to this, the present embodiment does not limit.

Because being only people's acoustical signal of sending of user oneself taking acoustic signals, this exemplary embodiment describes as example, if user sends acoustic signals by other sounding instrument, without carrying out above-mentioned steps 306.

In step 308, if voice print matching success, the array mode of definite this at least one signal segment, this array mode is for representing the each signal segment of at least one signal segment lasting duration separately;

If voice print matching success illustrates that this acoustic signals is the acoustic signals that the user that trusted sends, and can carry out subsequent operation.If voice print matching is unsuccessful, illustrate that this acoustic signals is acoustic signals or the noise that not sent by the user who trusts, this acoustic signals can be abandoned, it is not processed.

In the time determining the array mode of this at least one signal segment, electronic equipment can be determined according to the lasting duration of this signal segment the duration feature of this signal segment, and this duration feature comprises long input or short input; Electronic equipment is arranged the duration feature of each this signal segment according to the received sequencing of each this signal segment in this acoustic signals, obtains this array mode.

In the time determining the duration feature of signal segment, the duration feature that lasting duration can be greater than to the signal segment of scheduled duration threshold value is defined as long input, and the duration feature that lasting duration is not more than to the signal segment of scheduled duration threshold value is defined as short input.

Electronic equipment can be to having the signal segment of sound wave and processing respectively without the signal segment of sound wave.For the signal segment that has sound wave, can be greater than duration threshold value t by continuing duration ₁the duration feature of signal segment be defined as long input, will continue duration and be not more than duration threshold value t ₁the duration feature of signal segment be defined as short input; For the signal segment without sound wave, can be greater than duration threshold value t by continuing duration ₂the duration feature of signal segment be defined as long input, will continue duration and be not more than duration threshold value t ₂the duration feature of signal segment be defined as short input.Wherein, t ₁with t ₂value can be identical, also can be different.

In the acoustic signals receiving, a signal segment without sound wave can be considered as once suspending, and the signal segment without sound wave that duration is characterized as long input suspends for long, and the signal segment without sound wave that duration is characterized as short input is of short duration stopping.In addition, first in acoustic signals has the signal segment of sound wave to give tacit consent to and have a long time-out before.

In the time that the duration feature at least one signal segment sorts, can only sort to the duration feature of the signal segment that has sound wave, and according to long time-out, the duration feature of the signal segment that has sound wave after sequence is separated, it is a Feature Combination that at least one comprising between every adjacent two long time-outs has the sequence of the duration feature of the signal segment of sound wave, in the array mode of final this at least one signal segment of determining, at least comprises such Feature Combination.The manifestation mode of each Feature Combination can be as follows:

In the time only comprising a signal segment that has a sound wave between two long time-outs, characteristic of correspondence is combined as: long input or short input;

In the time comprising two signal segments that have a sound wave between two long time-outs, characteristic of correspondence combination can be: long input+long input, and short input+short input, long input+short input, or short input+length is inputted;

In the time comprising three signal segments that have a sound wave between two long time-outs, characteristic of correspondence combination can be that the difference of three duration features is arranged, in the time comprising four signal segments that have a sound wave between two long time-outs, characteristic of correspondence combination can be that the difference of four duration features is arranged, by that analogy.

In actual applications, when at least one comprising between definite every adjacent two long time-outs has the Feature Combination of signal segment of sound wave, also can not arrange duration feature, only there is the duration feature of the signal segment of sound wave to count at least one comprising between adjacent two long time-outs, using the combination of the number of different duration features, as this, at least one has the Feature Combination of the signal segment of sound wave, such as:

In the time only comprising a signal segment that has a sound wave between two long time-outs, this Feature Combination is: long input or short input;

In the time comprising two signal segments that have a sound wave between two long time-outs, this Feature Combination can be: two long inputs, and two short inputs, or, a long input+mono-short input;

In the time comprising three signal segments that have a sound wave between two long time-outs, this Feature Combination can be: three long inputs, and three short inputs, two long input+mono-short inputs, or, a long input+two short input, by that analogy.

It should be noted that, above-mentionedly duration feature is not arranged, only there is the duration feature of the signal segment of sound wave to count at least one comprising between adjacent two long time-outs, when using the combination of the number of different duration features as this, at least one has the Feature Combination of signal segment of sound wave, if while comprising at least two Feature Combinations in the array mode of acoustic signals, still need to arrange these two Feature Combinations according to the sequencing that receives signal segment.

This exemplary embodiment such scheme is only illustrated the duration feature of signal segment is divided into long input and the short example that is input as, in actual applications, also can carry out according to actual needs the division of duration feature, such as, only divide a kind of duration feature, quantity with the signal segment that has sound wave is distinguished different array modes, or, divide three kinds of duration features, each signal segment is divided into short input, middle input and long input etc. according to lasting duration, for the division methods of the duration feature of signal segment, this exemplary embodiment does not limit.

In step 310, according to fixed array mode, the corresponding relation between array mode and steering order that inquiry is set up in advance, to determine the steering order corresponding with fixed array mode;

In the time determining steering order corresponding to array mode, can there is the Feature Combination inquiry of the signal segment of sound wave to determine a steering order according at least one comprising between adjacent two long time-outs.

Electronic equipment can set in advance the corresponding relation between each Feature Combination and steering order, such as, the duration feature of signal segment is divided into two kinds of long input and short inputs, having the duration feature of the signal segment of sound wave to arrange acquisition array mode according to the sequencing that receives each signal segment each is example, the Feature Combination of two long inputs can correspondence be opened camera, the Feature Combination of two short inputs can correspondingly be opened sound-recording function, the Feature Combination of long input+short input can correspondence be closed quarter-bell, the Feature Combination of short input+length input can correspondence be opened music player etc.

Wherein, electronic equipment can be set up the corresponding relation between array mode and steering order according to user's setting.Such as, electronic equipment can show steering order corresponding interface is set, and set definite this steering order characteristic of correspondence combination according to user in the selection setting or the sound wave input that arrange in interface, and after user confirms, set up the corresponding relation between this Feature Combination and this steering order.

User is in the time of the corresponding relation of setting up between Feature Combination and steering order, can manually select the Feature Combination corresponding with a certain steering order arranging in interface, such as, take electronic equipment as example as smart mobile phone, the one referring to as shown in Figure 4 arranges interface schematic diagram, this arranges and in interface, includes each steering order and the characteristic of correspondence combination separately of each steering order, each Feature Combination is variable option, in interface shown in Fig. 4, Feature Combination 1 is given tacit consent to corresponding steering order 1, when user clicks the operation box at Feature Combination 1 place in interface, the list that ejection comprises each Feature Combination, if the click feature combination 2 of user in the list of this Feature Combination, smart mobile phone re-establishes the corresponding relation between steering order 1 and Feature Combination 2.

Or, user is in the time of the corresponding relation of setting up between Feature Combination and steering order, the mode that can input by sound wave is determined the Feature Combination that a certain steering order is corresponding, such as, take electronic equipment as example as smart mobile phone, the another kind referring to as shown in Figure 5 arranges interface schematic diagram, this arranges and in interface, includes each steering order and the characteristic of correspondence combination separately of each steering order, each Feature Combination is variable option, in interface shown in Fig. 5, Feature Combination 1 is given tacit consent to corresponding steering order 1, when user clicks the phonetic entry icon of steering order 1 correspondence in interface, smart mobile phone starts to receive the acoustic signals that user sends, and resolve the Feature Combination of the acoustic signals that user sends, this analyzing step and above-mentioned steps 308 are similar, repeat no more herein, if the Feature Combination that smart mobile phone parses is Feature Combination 2, re-establish the corresponding relation between this steering order 1 and this Feature Combination 2.

In step 312, carry out this steering order.

In the time determining the Feature Combination that comprises two or more in the array mode of at least one signal segment in acoustic signals, can, according to the putting in order of this two or more Feature Combinations, carry out successively the steering order that these two or more Feature Combinations are corresponding.

Take electronic equipment as example as smart mobile phone, the input mode of signal segment is divided into two kinds of long input and short inputs, having the duration feature of the signal segment of sound wave to arrange acquisition array mode according to the sequencing that receives each signal segment each is example, the Feature Combination correspondence that sets in advance long input+short input in smart mobile phone is closed alarm, the Feature Combination correspondence of short input+length input is opened music player functionality, user Xiao Wang is placed on smart mobile phone on desk in bed, after early morning, Xiao Wang heard the quarter-bell of smart mobile phone, send the acoustic signals that long input+of short duration stopping+short input+length is suspended, smart mobile phone listens to this acoustic signals, and resolve after the array mode of each signal segment in this acoustic signals, inquire about corresponding steering order for closing quarter-bell, smart mobile phone stops quarter-bell according to this steering order.When Xiao Wang gets up breakfast, want to play music and regulate mood, send the acoustic signals that short input+of short duration stopping+grow input+length is suspended, smart mobile phone listens to this acoustic signals, and resolve after the array mode of each signal segment in this acoustic signals, inquire about corresponding steering order for opening music player, smart mobile phone is opened music player and plays music according to this steering order.In this process, user does not need smart mobile phone to touch or button operation, does not even need to touch smart mobile phone and can complete conventional operation, has improved greatly the property easy to use of smart mobile phone, improves user and experiences.

In sum, apparatus control method shown in this exemplary embodiment, by determining the array mode of at least one signal segment comprising in acoustic signals, inquire about corresponding steering order and carry out according to fixed array mode, user only need to input sound wave, do not need manually to operate, even do not need contacting electronic equipments can control electronic equipment, solve in correlation technique user in the time controlling electronic equipment and realize some functions, electronic equipment must can be touched, and need manually to carry out release, the multistep operations such as selection, thereby the problem that the operating process causing is comparatively complicated, reach and simplify user's operation, extended operation mode, improve the effect that user experiences.

Secondly, apparatus control method shown in this exemplary embodiment, before determining the array mode of at least one signal segment, first whether detect the frequency of acoustic signals and/or amplitude in preset range, if so, carry out next step operation, thereby can distinguish noise and control acoustic signals, avoid the interference of ambient sound, improve control accuracy and user and experience.

In addition, apparatus control method shown in this exemplary embodiment, when acoustic signals be user send people's acoustical signal time, before determining the array mode of at least one signal segment, also acoustic signals is carried out to voice print matching, if next step operation is carried out in voice print matching success, the acoustic signals that the user that the sound of avoiding other people to send sends user controls electronic equipment forms interference, the security that has simultaneously improved user profile.

Fig. 6 is according to the schematic diagram of a kind of plant control unit shown in an exemplary embodiment, as shown in Figure 6, this plant control unit can be for carrying out the method as shown in Fig. 1 to 3 is arbitrary in the intelligentized electronic equipments such as smart mobile phone, panel computer, E-book reader, intelligent television, intelligent bracelet, TV set-top box, router, electronic toy.This plant control unit can comprise: acoustic signals receiver module 401, combination determination module 402, enquiry module 403 and execution module 404;

Described acoustic signals receiver module 401 is set to receive acoustic signals, comprises at least one signal segment in described acoustic signals, and described signal segment includes the signal segment of sound wave and the signal segment without sound wave;

Described combination determination module 402 is set to determine the array mode of described at least one signal segment, and described array mode is for representing the described each signal segment of at least one signal segment lasting duration separately;

Described enquiry module 403 is set to according to fixed described array mode, and the corresponding relation between array mode and steering order that inquiry is set up in advance, to determine the steering order corresponding with described fixed described array mode;

Described execution module 404 is set to carry out described steering order.

In sum, plant control unit shown in this exemplary embodiment, by determining the array mode of at least one signal segment comprising in acoustic signals, inquire about corresponding steering order and carry out according to fixed array mode, user only need to input sound wave, do not need manually to operate, even do not need contacting electronic equipments can control electronic equipment, solve in correlation technique user in the time controlling electronic equipment and realize some functions, electronic equipment must can be touched, and need manually to carry out release, the multistep operations such as selection, thereby the problem that the operating process causing is comparatively complicated, reach and simplify user's operation, extended operation mode, improve the effect that user experiences.

Fig. 7 is according to the schematic diagram of a kind of plant control unit shown in another exemplary embodiment, as shown in Figure 7, this plant control unit can be for carrying out the method as shown in Fig. 1 to 3 is arbitrary in the intelligentized electronic equipments such as smart mobile phone, panel computer, E-book reader, intelligent television, intelligent bracelet, TV set-top box, router, electronic toy.This plant control unit can comprise: acoustic signals receiver module 501, combination determination module 502, enquiry module 503 and execution module 504;

Described acoustic signals receiver module 501 is set to receive acoustic signals, comprises at least one signal segment in described acoustic signals, and described signal segment includes the signal segment of sound wave and the signal segment without sound wave;

Described combination determination module 502 is set to determine the array mode of described at least one signal segment, and described array mode is for representing the described each signal segment of at least one signal segment lasting duration separately;

Described enquiry module 503 is set to according to fixed described array mode, and the corresponding relation between array mode and steering order that inquiry is set up in advance, to determine the steering order corresponding with described fixed described array mode;

Described execution module 504 is set to carry out described steering order.

Optionally, described combination determination module 502, comprising: feature is determined submodule 502a and arranged submodule 502b;

Described feature determines that submodule 502a is set to determine according to the lasting duration of described signal segment the duration feature of described signal segment, and described duration feature comprises long input or short input;

Described arrangement submodule 502b is set to according to the received sequencing of each described signal segment in described acoustic signals, the duration feature of each described signal segment be arranged, and obtains described array mode.

Optionally, described device also comprises: attribute value detection module 505;

Attribute value detection module 505 was set to before described combination determination module 502 is determined the array mode of described at least one signal segment, whether the attribute value that detects the sound wave in described acoustic signals is within the scope of predetermined value, and wherein said attribute value comprises frequency numerical value and/or amplitude numerical value;

If described combination determination module 502 be set to the testing result of described attribute value detection module 505 be the attribute value of the sound wave in described acoustic signals within the scope of described predetermined value, carry out the step of the described array mode of determining described at least one signal segment.

Optionally, described device also comprises: the first identification module 506 and matching detection module 507;

Described the first identification module 506 is set to, before described combination determination module 502 is determined the array mode of described at least one signal segment, described acoustic signals be carried out to Application on Voiceprint Recognition, obtains the first vocal print feature;

Whether described matching detection module 507 is set to detect described the first vocal print feature and mates with the second vocal print feature setting in advance;

If it is described the first vocal print feature and described the second vocal print characteristic matching that described combination determination module 502 is set to the testing result of described matching detection module 507, carry out the step of the described array mode of determining described at least one signal segment.

Optionally, described device also comprises: sound wave receiver module 508, the second identification module 509 are set and module 510 is set;

The described sound wave receiver module 508 that arranges was set to before described the first identification module 506 carries out Application on Voiceprint Recognition to described acoustic signals, received the sound wave that arranges of input;

Described the second identification module 509 is set to the described sound wave that arranges to carry out Application on Voiceprint Recognition;

The described module 510 that arranges is set to the vocal print feature that described the second identification module 509 identifies acquisition and is set to described the second vocal print feature.

Optionally, described device also comprises: set up module 511;

The described module 511 of setting up is set to set up the corresponding relation between described array mode and described steering order according to user's setting.

In sum, plant control unit shown in this exemplary embodiment, by determining the array mode of at least one signal segment comprising in acoustic signals, inquire about corresponding steering order and carry out according to fixed array mode, user only need to input sound wave, do not need manually to operate, even do not need contacting electronic equipments can control electronic equipment, solve in correlation technique user in the time controlling electronic equipment and realize some functions, electronic equipment must can be touched, and need manually to carry out release, the multistep operations such as selection, thereby the problem that the operating process causing is comparatively complicated, reach and simplify user's operation, extended operation mode, improve the effect that user experiences.

Secondly, plant control unit shown in this exemplary embodiment, before determining the array mode of at least one signal segment, first whether detect the frequency of acoustic signals and/or amplitude in preset range, if so, carry out next step operation, thereby can distinguish noise and control acoustic signals, avoid the interference of ambient sound, improve control accuracy and user and experience.

In addition, plant control unit shown in this exemplary embodiment, when acoustic signals be user send people's acoustical signal time, before determining the array mode of at least one signal segment, also acoustic signals is carried out to voice print matching, if next step operation is carried out in voice print matching success, the acoustic signals that the user that the sound of avoiding other people to send sends user controls electronic equipment forms interference, the security that has simultaneously improved user profile.

Fig. 8 is according to the block diagram of a kind of electronic equipment 600 shown in an exemplary embodiment.For example, electronic equipment 600 can be mobile phone, computing machine, digital broadcast terminal, information receiving and transmitting equipment, game console, flat-panel devices, Medical Devices, body-building equipment, personal digital assistant etc.

With reference to Fig. 8, electronic equipment 600 can comprise following one or more assembly: processing components 602, storer 604, power supply module 606, multimedia groupware 608, audio-frequency assembly 610, the interface 612 of I/O (I/O), sensor module 614, and communications component 616.

Processing components 602 is controlled the integrated operation of electronic equipment 600 conventionally, such as with demonstration, call, data communication, the operation that camera operation and record operation are associated.Processing components 602 can comprise that one or more processors 620 carry out instruction, to complete all or part of step of above-mentioned method.In addition, processing components 602 can comprise one or more modules, is convenient to mutual between processing components 602 and other assemblies.For example, processing components 602 can comprise multi-media module, to facilitate mutual between multimedia groupware 608 and processing components 602.

Storer 604 is configured to store various types of data to be supported in the operation of electronic equipment 600.The example of these data comprises for any application program of operation on electronic equipment 600 or the instruction of method, contact data, telephone book data, message, picture, video etc.Storer 604 can be realized by the volatibility of any type or non-volatile memory device or their combination, as static RAM (SRAM), Electrically Erasable Read Only Memory (EEPROM), Erasable Programmable Read Only Memory EPROM (EPROM), programmable read only memory (PROM), ROM (read-only memory) (ROM), magnetic store, flash memory, disk or CD.In storer 604, also store one or more modules, these one or more modules are configured to be carried out by these one or more processors 620, to complete all or part of step of the method shown in above-mentioned Fig. 1,2 or 3.

The various assemblies that power supply module 606 is electronic equipment 600 provide electric power.Power supply module 606 can comprise power-supply management system, one or more power supplys, and other and the assembly that generates, manages and distribute electric power to be associated for electronic equipment 600.

Multimedia groupware 608 is included in the screen that an output interface is provided between described electronic equipment 600 and user.In certain embodiments, screen can comprise liquid crystal display (LCD) and touch panel (TP).If screen comprises touch panel, screen may be implemented as touch-screen, to receive the input signal from user.Touch panel comprises that one or more touch sensors are with the gesture on sensing touch, slip and touch panel.Described touch sensor is the border of sensing touch or sliding action not only, but also detects duration and the pressure relevant to described touch or slide.In certain embodiments, multimedia groupware 608 comprises a front-facing camera and/or post-positioned pick-up head.When electronic equipment 600 is in operator scheme, during as screening-mode or video mode, front-facing camera and/or post-positioned pick-up head can receive outside multi-medium data.Each front-facing camera and post-positioned pick-up head can be fixing optical lens systems or have focal length and optical zoom ability.

Audio-frequency assembly 610 is configured to output and/or input audio signal.For example, audio-frequency assembly 610 comprises a microphone (MIC), and when electronic equipment 600 is in operator scheme, during as call model, logging mode and speech recognition mode, microphone is configured to receive external audio signal.The sound signal receiving can be further stored in storer 604 or be sent via communications component 616.In certain embodiments, audio-frequency assembly 610 also comprises a loudspeaker, for output audio signal.

I/O interface 612 is for providing interface between processing components 602 and peripheral interface module, and above-mentioned peripheral interface module can be keyboard, some striking wheel, button etc.These buttons can include but not limited to: home button, volume button, start button and locking press button.

Sensor module 614 comprises one or more sensors, is used to electronic equipment 600 that the state estimation of various aspects is provided.For example, sensor module 614 can detect the opening/closing state of electronic equipment 600, the relative positioning of assembly, for example described assembly is display and the keypad of electronic equipment 600, the position of an assembly of all right detected electrons equipment 600 of sensor module 614 or electronic equipment 600 changes, the existence that user contacts with electronic equipment 600 or do not have the temperature variation of electronic equipment 600 orientation or acceleration/deceleration and electronic equipment 600.Sensor module 614 can comprise proximity transducer, be configured to without any physical contact time detect near the existence of object.Sensor module 614 can also comprise optical sensor, as CMOS or ccd image sensor, for using in imaging applications.In certain embodiments, this sensor module 614 can also comprise acceleration transducer, gyro sensor, Magnetic Sensor, pressure transducer or temperature sensor.

Communications component 616 is configured to be convenient to the communication of wired or wireless mode between electronic equipment 600 and other equipment.Electronic equipment 600 can access the wireless network based on communication standard, as WiFi, and 2G or 3G, or their combination.In one exemplary embodiment, communications component 616 receives broadcast singal or the broadcast related information from external broadcasting management system via broadcast channel.In one exemplary embodiment, described communications component 616 also comprises near-field communication (NFC) module, to promote junction service.For example, can be based on radio-frequency (RF) identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology, ultra broadband (UWB) technology, bluetooth (BT) technology and other technologies realize.

In the exemplary embodiment, electronic equipment 600 can be realized by one or more application specific integrated circuit (ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD) (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components, for carrying out said method.

In the exemplary embodiment, also provide a kind of non-provisional computer-readable recording medium that comprises instruction, for example, comprised the storer 604 of instruction, above-mentioned instruction can have been carried out said method by the processor of electronic equipment 600 620.For example, this non-provisional computer-readable recording medium can be ROM, random access memory (RAM), CD-ROM, tape, floppy disk and optical data storage equipment etc.

Those skilled in the art, considering instructions and putting into practice after disclosure herein, will easily expect other embodiment of the present disclosure.The application is intended to contain any modification of the present disclosure, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present disclosure and comprised undocumented common practise or the conventional techniques means in the art of the disclosure.Instructions and embodiment are only regarded as exemplary, and true scope of the present disclosure and spirit are pointed out by claim.

Should be understood that, the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various amendments and change not departing from its scope.The scope of the present disclosure is only limited by appended claim.

Claims (13)

1. an apparatus control method, is characterized in that, described method comprises:

Receive acoustic signals, comprise at least one signal segment in described acoustic signals, described signal segment includes the signal segment of sound wave and the signal segment without sound wave;

Determine the array mode of described at least one signal segment, described array mode is for representing the described each signal segment of at least one signal segment lasting duration separately;

According to fixed array mode, the corresponding relation between array mode and steering order that inquiry is set up in advance, to determine the steering order corresponding with described fixed array mode;

Carry out described steering order.

2. method according to claim 1, is characterized in that, the described array mode of determining described at least one signal segment, comprising:

Determine the duration feature of described signal segment according to the lasting duration of described signal segment, described duration feature comprises long input or short input;

According to the received sequencing of each described signal segment in described acoustic signals, the duration feature of each described signal segment is arranged, obtain described array mode.

3. method according to claim 1, is characterized in that, before determining the array mode of described at least one signal segment, described method also comprises:

Whether the attribute value that detects the sound wave in described acoustic signals is within the scope of predetermined value, and described attribute value comprises frequency numerical value and/or amplitude numerical value;

If the attribute value of the sound wave in described acoustic signals within the scope of described predetermined value, is carried out the step of the described array mode of determining described at least one signal segment.

4. method according to claim 1, is characterized in that, before determining the array mode of described at least one signal segment, described method also comprises:

Described acoustic signals is carried out to Application on Voiceprint Recognition, obtain the first vocal print feature;

Whether detect described the first vocal print feature mates with the second vocal print feature setting in advance;

If described the first vocal print feature and described the second vocal print characteristic matching, carry out the step of the described array mode of determining described at least one signal segment.

5. method according to claim 4, is characterized in that, before described acoustic signals is carried out to Application on Voiceprint Recognition, described method also comprises:

Receive the sound wave that arranges of input;

The described sound wave that arranges is carried out to Application on Voiceprint Recognition;

The vocal print feature that identification obtains is set to described the second vocal print feature.

6. method according to claim 1, is characterized in that, before described reception acoustic signals, described method also comprises:

Set up the corresponding relation between described array mode and described steering order according to user's setting.

7. a plant control unit, is characterized in that, described device comprises:

Acoustic signals receiver module, for receiving acoustic signals, comprises at least one signal segment in described acoustic signals, described signal segment includes the signal segment of sound wave and the signal segment without sound wave;

Combination determination module, for determining the array mode of described at least one signal segment, described array mode is for representing the described each signal segment of at least one signal segment lasting duration separately;

Enquiry module, for according to fixed described array mode, inquires about the corresponding relation between array mode and the steering order of setting up in advance, to determine the steering order corresponding with described fixed described array mode;

Execution module, for carrying out described steering order.

8. device according to claim 7, is characterized in that, described combination determination module, comprising:

Feature is determined submodule, and for determine the duration feature of described signal segment according to the lasting duration of described signal segment, described duration feature comprises long input or short input;

Arrange submodule, for according to the received sequencing of the each described signal segment of described acoustic signals, the duration feature of each described signal segment being arranged, obtain described array mode.

9. device according to claim 7, is characterized in that, described device also comprises:

Attribute value detection module, before determining the array mode of described at least one signal segment at described combination determination module, whether the attribute value that detects the sound wave in described acoustic signals is within the scope of predetermined value, and wherein said attribute value comprises frequency numerical value and/or amplitude numerical value;

Described combination determination module, if the attribute value of the sound wave that is described acoustic signals for the testing result of described attribute value detection module within the scope of described predetermined value, is carried out the step of the described array mode of determining described at least one signal segment.

10. device according to claim 7, is characterized in that, described device also comprises:

The first identification module, before determining the array mode of described at least one signal segment at described combination determination module, carries out Application on Voiceprint Recognition to described acoustic signals, obtains the first vocal print feature;

Whether matching detection module, mate with the second vocal print feature setting in advance for detection of described the first vocal print feature;

Described combination determination module, if be described the first vocal print feature and described the second vocal print characteristic matching for the testing result of described matching detection module, carries out the step of the described array mode of determining described at least one signal segment.

11. devices according to claim 10, is characterized in that, described device also comprises:

Sound wave receiver module is set, before described acoustic signals being carried out to Application on Voiceprint Recognition at described the first identification module, receives the sound wave that arranges of input;

The second identification module, for carrying out Application on Voiceprint Recognition to the described sound wave that arranges;

Module is set, and the vocal print feature obtaining for described the second identification module identification is set to described the second vocal print feature.

12. devices according to claim 7, is characterized in that, described device also comprises:

Set up module, for set up the corresponding relation between described array mode and described steering order according to user's setting.

13. 1 kinds of electronic equipments, is characterized in that, described electronic equipment comprises:

Processor;

For storing the storer of described processor executable;

Wherein, described processor is configured to:

Receive acoustic signals, comprise at least one signal segment in described acoustic signals, described signal segment includes the signal segment of sound wave and the signal segment without sound wave;

Determine the array mode of described at least one signal segment, described array mode is for representing the described each signal segment of at least one signal segment lasting duration separately;

According to fixed described array mode, the corresponding relation between array mode and steering order that inquiry is set up in advance, to determine the steering order corresponding with described fixed described array mode;

Carry out described steering order.