CN105161100A - Control method and electronic device - Google Patents

Abstract

The embodiment of the invention provides a control method and an electronic device. The method comprises the steps of acquiring a first detection parameter by a first detection module of the electronic device; according to the first detection parameter, judging whether the electronic device meets a first condition or not; on the condition that the electronic device meets the first condition, switching the sound collection module of the electronic device from a first collection operation mode into a second collection operation mode, wherein the first collection operation mode is different from the second collection operation mode. The embodiment of the invention shows that, the convenience of the sound collection operation is improved.

Description

Control method and electronic equipment

Technical field

The present invention relates to technical field of information processing, particularly relate to a kind of control method and electronic equipment.

Background technology

Along with electronic technology and intelligence develop timely, electronic equipment become daily life and all trades and professions are requisite, function also from strength to strength, such as mobile phone, panel computer and the various wearable intelligent equipment conveniently carrying and occur.

Wherein, namely a critical function of electronic equipment is the collection that can realize sound, and can play the sound gathered, identification etc.

In prior art, it is all need the corresponding physical button of manual activation to realize usually that electronic equipment starts sound collection, and operation is also not convenient.

Summary of the invention

For solving the problems of the technologies described above, the embodiment of the present application provides a kind of control method and electronic equipment, improves the operation ease that recording gathers.

For solving the problem, the embodiment of the present application provides following technical scheme:

A kind of control method, comprising:

The first detected parameters is gathered by the first detection module of electronic equipment;

According to described first detected parameters, judge whether described electronic equipment meets first condition;

When described electronic equipment meets described first condition, the sound acquisition module of described electronic equipment is switched to the second collecting work pattern from the first collecting work pattern, wherein, described first collecting work pattern is different from described second collecting work pattern.

Preferably, under described first collecting work pattern, described sound acquisition module does not carry out sound collection; Under described second collecting work pattern, described sound acquisition module carries out sound collection;

Described when described electronic equipment meets described first condition, by the sound acquisition module of described electronic equipment from after the first collecting work pattern switches to the second collecting work pattern, described method also comprises:

The second detected parameters is gathered by the second detection module of described electronic equipment;

According to described second detected parameters, judge whether described electronic equipment meets second condition;

When described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation, wherein, described first identifies that mode of operation and described second identifies that mode of operation is different.

Preferably, under identifying mode of operation described first, described sound recognition module does not identify the sound that described sound acquisition module gathers; Under identifying mode of operation described second, described sound recognition module identifies the sound that described sound acquisition module gathers.

Preferably, described when described electronic equipment meets described first condition, by the sound acquisition module of described electronic equipment from after the first collecting work pattern switches to the second collecting work pattern, described method also comprises:

Obtain under identifying mode of operation described first, the first sound that described sound acquisition module gathers;

Described when described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation after, described method also comprises:

Obtain and identify under mode of operation described second, the second sound that described sound acquisition module gathers, wherein, described second sound and described first sound continuous;

Obtain and described second sound continuous print from described first sound, the sub-sound of preset duration, described sub-sound and described second sound form continuous print the 3rd sound; By described sound recognition module, described 3rd sound is identified.

Preferably, it is characterized in that,

Described according to described first detected parameters, judge whether described electronic equipment meets first condition and comprise:

According to described first detected parameters, judge whether the distance of described electronic equipment relative target thing is less than first threshold and is greater than Second Threshold; Wherein, described first threshold is greater than Second Threshold;

Described according to described second detected parameters, judge whether described electronic equipment meets second condition and comprise:

According to described second detected parameters, judge whether the distance of described electronic equipment relative target thing is less than Second Threshold.

Preferably, it is characterized in that, described according to described first detected parameters, judge whether described electronic equipment meets first condition and comprise:

According to described first detected parameters, judge whether described electronic equipment moves, and direction of motion is towards preset direction;

Described according to described second detected parameters, judge whether described electronic equipment meets second condition and comprise:

According to described second detected parameters, judge whether the distance of described electronic equipment relative target thing is less than Second Threshold.

Preferably, when described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation after, described method also comprises:

The sound of described sound acquisition module collection is not detected, when described electronic equipment does not meet described first condition or described electronic equipment does not meet described second condition in Preset Time, from described second, the sound recognition module of described electronic equipment is identified that mode of operation switches to described first and identifies mode of operation, and described electronic equipment sound acquisition module is switched to described first collecting work pattern from described second collecting work pattern.

A kind of electronic equipment, comprising:

Sound acquisition module, at least has the first collecting work pattern and the second collecting work pattern;

First detection module, for gathering the first detected parameters;

Processing module, for according to described first detected parameters, judges whether described electronic equipment meets first condition; When described electronic equipment meets described first condition, toggle sound acquisition module switches to described second collecting work pattern from described first collecting work pattern, and wherein, described first collecting work pattern is different from described second collecting work pattern.

Preferably, described electronic equipment also comprises:

Second detection module, for gathering the second detected parameters;

Sound recognition module, at least has the first identification mode of operation and second and identifies mode of operation;

Described sound acquisition module, specifically under described first collecting work pattern, does not carry out sound collection; Under described second collecting work pattern, carry out sound collection;

Described processing module is also for when described electronic equipment meets described first condition, by the sound acquisition module of described electronic equipment from after the first collecting work pattern switches to the second collecting work pattern, according to described second detected parameters, judge whether described electronic equipment meets second condition; When described electronic equipment meets described second condition, trigger described sound recognition module and identify that mode of operation switches to the second identification mode of operation from first, wherein, described first identifies that mode of operation and described second identifies that mode of operation is different.

Preferably, described electronic equipment also comprises:

Stuck-module, for fixing described electronic equipment, and maintains described electronic equipment and user's body relative position relation at least partially.

Preferably, described stuck-module at least has stationary state, described stuck-module as annulus or can meet the first pre-conditioned proximate annular space at least partially, wherein, relatively can be fixed on satisfied second pre-conditioned column peripheral described annulus or described proximate annular space.

Compared with prior art, technique scheme has the following advantages:

The control method that the embodiment of the present application provides and electronic equipment, electronic equipment is provided with first detection module, the first detected parameters is detected by first detection module, and judge whether electronic equipment meets first condition according to the first detected parameters, when electronic equipment meets first condition, the second collecting work pattern is switched to from the first collecting work pattern by electronic equipment, the embodiment of the present application achieves the automatic switchover of collecting work pattern, without the need to manual hand manipulation, make recording acquisition operations more convenient.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only the embodiment of the application, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

The process flow diagram of a kind of control method embodiment that Fig. 1 provides for the embodiment of the present application;

The process flow diagram of a kind of another embodiment of control method that Fig. 2 provides for the embodiment of the present application;

The process flow diagram of a kind of another embodiment of control method that Fig. 3 provides for the embodiment of the present application;

The structural representation of a kind of electronic equipment embodiment that Fig. 4 provides for the embodiment of the present application;

The structural representation of a kind of another embodiment of electronic equipment that Fig. 5 provides for the embodiment of the present application;

The structural representation of a kind of another embodiment of electronic equipment that Fig. 6 provides for the embodiment of the present application;

Electronic equipment a kind of structural drawing in actual applications that Fig. 7 provides for the embodiment of the present application;

The electronic equipment another kind of structural drawing in actual applications that Fig. 8 provides for the embodiment of the present application.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, be clearly and completely described the technical scheme in the embodiment of the present application, obviously, described embodiment is only some embodiments of the present application, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the application's protection.

The process flow diagram of a kind of control method embodiment that Fig. 1 provides for the embodiment of the present application, the method can comprise following step:

101: gather the first detected parameters by the first detection module of electronic equipment.

102: according to described first detected parameters, judge whether described electronic equipment meets first condition.

103: when described electronic equipment meets described first condition, the sound acquisition module of described electronic equipment is switched to the second collecting work pattern from the first collecting work pattern.

Wherein, described first collecting work pattern is different from described second collecting work pattern.

In the embodiment of the present application, the sound acquisition module of electronic equipment at least has the first collecting work pattern and the second collecting work pattern, and is provided with first detection module.Under electronic equipment is in the first collecting work pattern, by the parameter that first detection module detects, called after first detected parameters, if according to this first detected parameters, when determining that electronic equipment meets first condition, then automatic sound acquisition module is switched to the second collecting work pattern from the first collecting work pattern.Because the first collecting work pattern is different from the second collecting work pattern, therefore electronic equipment can realize different acquisition functions in different collecting work patterns, can meet the different needs, improve the utilization factor of electronic equipment, detect mould by electronic equipment first and detect the first detected parameters, automatically can realize the switching of sound acquisition module drainage pattern, without the need to manual operation, operation is convenient and intelligent.

Wherein, under described first collecting work pattern, described sound acquisition module does not carry out sound collection; Under described second collecting work pattern, described sound acquisition module carries out sound collection.

Also namely, according to the first detected parameters, when determining that electronic equipment meets first condition, the sound acquisition module of electronic equipment just starts the collection carrying out sound.

After electronic equipment carries out sound collection by sound acquisition module, can also the sound gathered be identified, such as along with first intellectual technology development can by the control of voice realization to electronic equipment, then need the sound to gathering to identify.As shown in Figure 2, be the process flow diagram of a kind of another embodiment of control method that the embodiment of the present application provides, the method can comprise following step:

201: gather the first detected parameters by the first detection module of electronic equipment.

202: according to described first detected parameters, judge whether described electronic equipment meets first condition.

203: when described electronic equipment meets described first condition, the sound acquisition module of described electronic equipment is switched to the second collecting work pattern from the first collecting work pattern.

Wherein, the first collecting work pattern is different from the second collecting work pattern.

Under described first collecting work pattern, described sound acquisition module does not carry out sound collection; Under described second collecting work pattern, described sound acquisition module carries out sound collection.

Also namely, according to the first detected parameters, when determining that electronic equipment meets first condition, the sound acquisition module of electronic equipment just starts the collection carrying out sound.

204: gather the second detected parameters by the second detection module of described electronic equipment.

205: according to described second detected parameters, judge whether described electronic equipment meets second condition.

206: when described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation.

Wherein, described first identify that mode of operation and described second identifies that mode of operation is different.

Sound recognition module in electronic equipment, for identifying the sound of sound acquisition module collection.

In the present embodiment, sound recognition module at least has the first identification mode of operation and the second identification mode of operation.Also be provided with the second detection module in electronic equipment, wherein, this second detection module and first detection module can be same module.By the parameter that the second detection module detects, the differentiation of going up for convenience of description, called after second detected parameters, according to this second detected parameters, when determining that electronic equipment meets second condition, namely from first, electronic equipment can be identified that mode of operation switches second and identifies mode of operation, thus the recognition mode automatically achieving electronic equipment switches, and performs without the need to manual activation physical button.

The parameter that first detected parameters and the second detected parameters are no-contact electronic equipment and generate.First detected parameters can be identical with the parameter type of the second detected parameters, also can be different, and the parameter type of the first detected parameters and the second detected parameters can be introduced in embodiment below in detail.

Wherein, under identifying mode of operation described first, described sound recognition module can not identify the sound that described sound acquisition module gathers; Under identifying mode of operation described second, described sound recognition module identifies the sound that described sound acquisition module gathers.

In the present embodiment, sound recognition module identifies the sound of sound acquisition module collection, and when sound acquisition module is under the first collecting work pattern, namely sound recognition module is in the first identification operational module.Therefore need after sound acquisition module switches under the second collecting work pattern, then judge whether sound recognition module to identify that mode of operation switches to the second identification mode of operation from first.

If before sound recognition module switches to the second identification mode of operation, according to the first detected parameters, when determining that electronic equipment does not meet described first condition, or within a certain period of time, according to the second detected parameters, electronic equipment does not meet second condition or within a certain period of time, the second detected parameters do not detected, then electronic equipment can be switched to the first collecting work pattern, namely the judgement to sound recognition module can be stopped, the sound deletion etc. that sound acquisition module can also be gathered, to avoid gathering, missing the problems such as identification by mistake.

Therefore, in the present embodiment, after sound acquisition module switches to the second collecting work pattern, under sound recognition module is in the first identification mode of operation, voice recognition can not be carried out immediately, by the second detected parameters, after determining that electronic equipment meets second condition, switch to the second identification mode of operation again, start to identify the sound of sound acquisition module collection.Electronic equipment, only after meeting first condition and second condition, just can carry out the identification of sound, by the restriction of two conditions, can avoid electronic equipment identification problem by mistake.

And the power consumption of carrying out sound collection due to sound acquisition module is less than the power consumption that sound recognition module carries out voice recognition, therefore the present embodiment is passed through, the power consumption of electronic equipment can also be reduced, avoid causing due to maloperation identifying by mistake, make the power consumption increasing electronic equipment.

The process flow diagram of a kind of another embodiment of control method that Fig. 3 provides for the embodiment of the present application, the method can comprise following step:

301: gather the first detected parameters by the first detection module of electronic equipment.

302: according to described first detected parameters, judge whether described electronic equipment meets first condition.

303: when described electronic equipment meets described first condition, the sound acquisition module of described electronic equipment is switched to the second collecting work pattern from the first collecting work pattern.

Wherein, the first collecting work pattern is different from the second collecting work pattern.

Under described first collecting work pattern, described sound acquisition module does not carry out sound collection; Under described second collecting work pattern, described sound acquisition module carries out sound collection.

Also namely, according to the first detected parameters, when determining that electronic equipment meets first condition, the sound acquisition module of electronic equipment just starts the collection carrying out sound.

304: obtain under the sound recognition module of described electronic equipment is in the first identification mode of operation, the first sound that described sound acquisition module gathers.

305: gather the second detected parameters by the second detection module of described electronic equipment.

306: according to described second detected parameters, judge whether described electronic equipment meets second condition.

307: when described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation.

Wherein, described first identify that mode of operation and described second identifies that mode of operation is different.

Under identifying mode of operation described first, described sound recognition module does not identify the sound that described sound acquisition module gathers; Under identifying mode of operation described second, described sound recognition module identifies the sound that described sound acquisition module gathers.

308: obtain under identifying mode of operation described second, the second sound that described sound acquisition module gathers.

Wherein, described second sound and described first sound continuous;

309: obtain and described second sound continuous print from described first sound, the sub-sound of preset duration, described sub-sound and described second sound form continuous print the 3rd sound.

310: by described sound recognition module, described 3rd sound is identified.

The sound acquisition module of electronic equipment switches the second collecting work pattern, and when not switching under the second identification mode of operation, namely the collection carrying out sound is started, the sound gathered in the second collecting work pattern corresponding under identifying mode of operation first is the first sound, after switching under the second identification mode of operation, the collection of sound can be continued, in order to distinguish under the second collecting work pattern, first identifies that mode of operation and second identifies the sound gathered in mode of operation, second identifies that the sound gathered in mode of operation is the second sound, this first sound and the second sound are continuous print.

Under identifying mode of operation second, just can identify sound, as a kind of possible implementation, can only identify the second sound.But because whether electronic equipment meets second condition, user cannot judge accurately, also namely the grasp of user to second condition is different from machine, occurs in possibly before second condition meets and will carry out phonetic entry, thus cause recognition result imperfect.Therefore time in order to avoid not switching to the second identification mode of operation at electronic equipment, the content needing to identify has been included in first sound of sound acquisition module collection, such as voice command, cause identifying inaccurate problem, as the implementation that another kind is possible, in the present embodiment, can obtain from the first sound and described second sound continuous print, the sub-sound of preset duration, continuous print the 3rd sound that namely this sub-sound can be formed with the second sound, thus by sound recognition module, described 3rd sound is identified, to improve the degree of accuracy identified.

Such as, when supposing that the first sound acquisition time section is 9 when 15 point 30 seconds ~ 9 15 points 33 seconds, duration is 3 seconds, when second sound acquisition time section is 9 when 15 point 33 seconds ~ 9 15 points 48 seconds, duration 15 seconds, suppose that Preset Time is 2 seconds, the time that when namely this sub-sound refer to 9, when 15 point 31 seconds ~ 9,15 points gathered between 33 seconds, the 3rd sound be namely to 9 time 15 point 31 seconds ~ 9 time 15 points of collections between 48 seconds sound.

In the embodiment of the present application, the first detected parameters and the second detected parameters are the parameter that no-contact electronic equipment generates.

In a kind of possible implementation, in the embodiment of the present application, according to described first detected parameters, judge whether described electronic equipment meets first condition and can be specially:

According to described first detected parameters, judge whether the distance of described electronic equipment relative target thing is greater than first threshold and is less than Second Threshold;

According to described second detected parameters, judge whether described electronic equipment meets second condition and can be specially:

According to described second detected parameters, judge whether the distance of described electronic equipment relative target thing is less than Second Threshold.

First detected parameters is identical with the second detected parameters type, therefore first detection module and the second detection module can be same module, first condition and second condition can be the judgement that the parameter for same type is carried out, but the degree of accuracy that second condition requires needs higher than first condition, to improve recognition accuracy.This target object can specifically refer to the face comprising mouth, specifically can refer to the mouth of user.In actual applications, when carrying out voice recognition by electronic equipment, user needs the mouth of electronic equipment near user to gather usually, therefore the distance of electronic equipment distance users mouth can be utilized, the sound acquisition module realizing automatic trigger electronics gathers sound, and sound recognition module carries out voice recognition.

Also namely close to user's mouth at electronic equipment, be less than first threshold and be greater than Second Threshold, by the collection of sound acquisition module sound from the first collecting work pattern switches to the second collecting work pattern of electronic equipment, first threshold is more than or equal to Second Threshold.Continue close at electronic equipment to user's mouth, when making close together, be less than described Second Threshold, the sound recognition module by electronic equipment switches to the second identification mode of operation, and the sound started gathering identifies.

And in order to avoid maloperation, to reduce the power consumption of electronic equipment, detecting that electronic equipment is when user's mouth is close, distance is less than first threshold to the distance of user's mouth, but when being greater than Second Threshold, namely can switch to the second collecting work pattern and start to carry out sound collection by toggle sound acquisition module.If it is close to user's mouth to detect that electronic equipment continues, until when the distance of distance users mouth is less than Second Threshold, then toggle sound identification module switch to the second identification mode of operation under start to identify that the sound gathered under mode of operation identifies to sound acquisition module second; If detect that electronic equipment is no longer close to user's mouth, even distance users mouth is more and more far away, be greater than first threshold or within a certain period of time, when the mouth of electronic equipment distance users is still less than Second Threshold, then can switch to the first collecting work pattern by toggle sound acquisition module, stop sound collection, thus effectively can avoid user misoperation and cause identifying by mistake, increase the problem of equipment power dissipation.

And because user is to the grasp of second condition, also namely different from machine to the grasp of the distance of electronic equipment distance users mouth, meet second condition at electronic equipment to meet, probably user just carries out phonetic entry, if electronic equipment is after meeting second condition, just identify, recognition result will be caused imperfect.

Therefore, when electronic equipment meets first condition, namely can start to carry out sound collection, realize buffer memory.Thus one section of content (sub-the sound)+second condition of buffer memory before meeting with second condition when meeting second condition meet after content (the second sound) identify, to improve the accuracy of identification.

Still for the above-mentioned time period, 15 points of 33 seconds durations (also user's process of raising one's hand that is 3 seconds when 15 point 30 seconds ~ 9 when supposing that the first sound acquisition time section is 9, the distance of distance users mouth is greater than first threshold and is less than Second Threshold, carry out sound collection), when second sound acquisition time section is 9 when 15 point 33 seconds ~ 9 15 points 48 seconds, (user raises one's hand to distance users mouth and is less than Second Threshold for duration 15 seconds, carry out voice recognition), suppose that Preset Time is 2 seconds, the time that when namely this sub-sound refer to 9, when 15 point 31 seconds ~ 9,15 points gathered between 33 seconds, 3rd sound be namely to 9 time 15 point 31 seconds ~ 9 time 15 points of collections between 48 seconds sound (in order to improve recognition accuracy, the 3rd sound that the sub-sound of buffer memory and the second sound of collection are formed is identified).

If after sound acquisition module is in the second collecting work pattern, according to the first detected parameters, determine that electronic equipment does not meet first condition or within a certain period of time, according to the second detected parameters, electronic equipment does not meet second condition or within a certain period of time, the second detected parameters do not detected, the first collecting work pattern that sound acquisition module can be switched to, the sound deletion etc. that sound acquisition module can also be gathered, to avoid gathering, missing the problems such as identification by mistake.

This first detection module and the second detection module can be distance detection module, such as infrared sensor or Proximity Sensor etc. can the sensor of detecting distance or photographing modules, such as depth camera is first-class, can calculate range information according to depth information, the first detected parameters and the second detected parameters can be distance parameter.

In the implementation that another kind is possible, in the embodiment of the present application, according to described first detected parameters, judging whether described electronic equipment meets first condition can specifically:

According to described first detected parameters, judge whether described electronic equipment moves, and direction of motion is towards preset direction;

According to described second detected parameters, judging whether described electronic equipment meets second condition can specifically:

According to described second detected parameters, judge whether the distance of described electronic equipment relative target thing is less than Second Threshold.

First detected parameters can be kinematic parameter, and the second detected parameters can be distance parameter or image parameter etc.

Namely this preset direction can refer to towards the direction of user's mouth.

In actual applications, when user gathers the sound of oneself by electronic equipment, normally will by electronic equipment near user's mouth, therefore, if detect, electronic equipment moves, and when moving towards user's mouth, then the sound acquisition module of trigger electronics can switch to the second collecting work pattern, start the collection carrying out sound.And when electronic equipment distance users mouth is nearer, when being less than Second Threshold, then the sound recognition module of trigger electronics the second identification mode of operation can be switched to.

And in order to avoid maloperation, to reduce the power consumption of electronic equipment, detecting that electronic equipment moves, and when moving towards user's mouth, namely can determine that electronic equipment carries out voice recognition possibly, first toggle sound acquisition module switches to the second collecting work pattern and starts to carry out sound collection.If it is close to user's mouth to detect that electronic equipment continues, until when the distance of distance users mouth is less than Second Threshold, then toggle sound identification module switches to the second identification mode of operation; If detect electronic equipment not motion or towards user's mouth contrary direction motion or within a certain period of time, when the distance of electronic equipment distance users mouth is still greater than Second Threshold, then can switch to the first collecting work pattern by toggle sound acquisition module, stop sound collection, thus effectively can avoid user misoperation and cause identifying by mistake, increase the problem of equipment power dissipation.

In order to improve accuracy in detection and reduce resource consumption, when described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation after, if the sound that described sound acquisition module gathers do not detected in the Preset Time after sound recognition module switches to the second identification mode of operation, according to the first detected parameters, described electronic equipment no longer meets described first condition, or according to the second detected parameters, when described electronic equipment no longer meets described second condition, namely from described second, the sound recognition module of described electronic equipment can be identified that mode of operation switches to described first and identifies mode of operation, and described electronic equipment sound acquisition module is switched to described first collecting work pattern from described second collecting work pattern.

Also namely the first detected parameters and the second detected parameters can be the parameters of Real-Time Monitoring, no longer respective conditions is met once electronic equipment, namely the sound acquisition module of electronic equipment or sound recognition module can be carried out the switching of mode of operation, to reduce the consumption to electronic equipment resource.

If sound do not detected in the Preset Time of sound acquisition module after sound recognition module switches to the second identification mode of operation, then can show that user is not at sounding, then namely the sound acquisition module of electronic equipment can be switched to the first collecting work pattern, described sound recognition module switches to the first identification mode of operation, to reduce the consumption to electronic equipment resource.

Wherein, in the embodiment of the present application, carrying out identification by described sound recognition module to described 3rd sound can specifically:

Identify the phonetic order comprised in described 3rd sound;

According to different phonetic instruction, the voice data in described 3rd sound is stored respectively according to the type that different phonetic instruction is corresponding.

Utilization can define multiple phonetic order, to distinguish the different phonetic information type that user preserves, such as: schedule, and information memorandum etc.Within special sound instruction set, the discrimination of phonetic order should meet the routine use of user.

Certainly, can also control electronic equipment according to the phonetic order in the 3rd sound and perform respective operations, such as phonetic order for opening some application programs, or is called to some contact persons.

The electronic equipment of the embodiment of the present application, in actual applications, can be the equipment of Wearable, be specifically as follows Wrist belt-type equipment, such as intelligent watch.

Intelligent watch is generally worn on user's wrist place, when user is recorded by intelligent watch, in prior art, user is needed to manually boot record button in intelligent watch, operate very not convenient, particularly when user records the sound of oneself by intelligent watch.

And in the embodiment of the present application, the first detected parameters detected by first detection module, can when electronic equipment meets first condition, the sound acquisition module of automatic trigger electronics carries out sound collection, when electronic equipment meets second condition, the sound of sound recognition module to sound acquisition module collection of automatic trigger electronics identifies.And in order to improve the degree of accuracy of identification, except identifying that the second sound gathered under mode of operation identifies to sound acquisition module in the second collecting work pattern and second, also comprising in the first sound that sound acquisition module is gathered under the second collecting work pattern and first identify mode of operation and identifying with the sub-sound of the second sound continuous print.To avoid user to send phonetic order in the first sound, and cause identification error.

For aforesaid each embodiment of the method, in order to simple description, therefore it is all expressed as a series of combination of actions, but those skilled in the art should know, the application is not by the restriction of described sequence of movement, because according to the application, some step can adopt other orders or carry out simultaneously.Secondly, those skilled in the art also should know, the embodiment described in instructions all belongs to preferred embodiment, and involved action and module might not be that the application is necessary.

The embodiment of the present application additionally provides a kind of electronic equipment, as shown in Figure 4, for the structural representation of the electronic equipment embodiment that the embodiment of the present application provides, this electronic equipment can comprise sound acquisition module 401, first detection module 402 and processing module 403;

Wherein, sound acquisition module 401 at least has the first collecting work pattern and the second collecting work pattern.

First detection module 402, for gathering the first detected parameters.

Processing module 403, for according to described first detected parameters, judges whether described electronic equipment meets first condition; When described electronic equipment meets described first condition, toggle sound acquisition module switches to described second collecting work pattern from described first collecting work pattern.

Wherein, described first collecting work pattern is different from described second collecting work pattern.

In actual applications, this sound acquisition module can be a microphone.First detection module can comprise sensor or first-class detection part of making a video recording, and processing module is processor etc.

The apparatus body that sound acquisition module, first detection module and processing module arrange electronic equipment is inner, and apparatus body comprises a housing module, and sound acquisition module, first detection module and processing module can arrange housing module inside.

In the present embodiment, the sound acquisition module of electronic equipment at least has the first collecting work pattern and the second collecting work pattern, and is provided with first detection module.Under electronic equipment is in the first collecting work pattern, by the parameter that first detection module detects, called after first detected parameters, if according to this first detected parameters, when determining that electronic equipment meets first condition, then automatic sound acquisition module is switched to the second collecting work pattern from the first collecting work pattern.Because the first collecting work pattern is different from the second collecting work pattern, therefore electronic equipment can realize different acquisition functions in different collecting work patterns, can meet the different needs, improve the utilization factor of electronic equipment, detect mould by electronic equipment first and detect the first detected parameters, automatically can realize the switching of sound acquisition module drainage pattern, without the need to manual operation, operation is convenient and intelligent.

Wherein, under described first collecting work pattern, described sound acquisition module does not carry out sound collection; Under described second collecting work pattern, described sound acquisition module carries out sound collection.

Also namely, according to the first detected parameters, when determining that electronic equipment meets first condition, the sound acquisition module of electronic equipment just starts the collection carrying out sound.

After electronic equipment carries out sound collection by sound acquisition module, can also the sound gathered be identified, along with intellectual technology development can, by the control of voice realization to electronic equipment, therefore need the sound to gathering to identify.

As another embodiment, as shown in Figure 5, this electronic equipment can also comprise the second detection module 404 and sound knowledge module 405;

Described second detection module 404, for gathering the second detected parameters;

Described sound recognition module 405, at least has the first identification mode of operation and second and identifies mode of operation;

Described sound acquisition module 401, specifically under described first collecting work pattern, does not carry out sound collection; Under described second collecting work pattern, carry out sound collection;

Described processing module 403 is also for when described electronic equipment meets described first condition, by the sound acquisition module of described electronic equipment from after the first collecting work pattern switches to the second collecting work pattern, according to described second detected parameters, judge whether described electronic equipment meets second condition; When described electronic equipment meets described second condition, trigger described sound recognition module and identify that mode of operation switches to the second identification mode of operation from first.

Wherein, described first identify that mode of operation and described second identifies that mode of operation is different.

In the present embodiment, sound recognition module at least has the first identification mode of operation and the second identification mode of operation.The second detection module is also provided with in electronic equipment, by the parameter that the second detection module detects, the differentiation of going up for convenience of description, called after second detected parameters, according to this second detected parameters, when determining that electronic equipment meets second condition, namely from first, electronic equipment can be identified that mode of operation switches second and identifies mode of operation, thus the recognition mode automatically achieving electronic equipment switches, and performs without the need to manual activation physical button.

The parameter that first detected parameters and the second detected parameters are no-contact electronic equipment and generate.

Wherein, under identifying mode of operation described first, described sound recognition module can not identify the sound that described sound acquisition module gathers; Under identifying mode of operation described second, described sound recognition module identifies the sound that described sound acquisition module gathers.

In addition, described processing module 403 is when described electronic equipment meets described first condition, by the sound acquisition module of described electronic equipment from after the first collecting work pattern switches to the second collecting work pattern, also for obtaining under described first identification mode of operation, the first sound that described sound acquisition module gathers; When described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation after, also for obtaining under described second identification mode of operation, the second sound that described sound acquisition module gathers; Obtain and described second sound continuous print from described first sound, the sub-sound of preset duration; Identify wherein by described sound recognition module to described 3rd sound, continuously, described sub-sound and described second sound form continuous print the 3rd sound for described second sound and described first sound.

The sound acquisition module of electronic equipment switches the second collecting work pattern, and when not switching under the second identification mode of operation, namely the collection carrying out sound is started, the sound gathered in the second collecting work pattern corresponding under identifying mode of operation first is the first sound, after switching under the second identification mode of operation, the collection of sound can be continued, in order to distinguish under the second collecting work pattern, first identifies that mode of operation and second identifies the sound gathered in mode of operation, second identifies that the sound gathered in mode of operation is the second sound, this first sound and the second sound are continuous print.

Under identifying mode of operation second, just can identify sound, can only identify the second sound.But, in order to improve the degree of accuracy of identification, likely in the first sound, user sends voice command, therefore in the present embodiment, can obtain from the first sound and described second sound continuous print, the sub-sound of preset duration, continuous print the 3rd sound that namely this sub-sound can be formed with the second sound, thus by sound recognition module, described 3rd sound is identified, to improve the degree of accuracy of identification.

In the embodiment of the present application, the first detected parameters and the second detected parameters are the parameter that no-contact electronic equipment generates.

Therefore, in a kind of possible implementation, in the embodiment of the present application, described processing module 403, according to described first detected parameters, judges whether described electronic equipment meets first condition specifically;

According to described first detected parameters, judge whether the distance of described electronic equipment relative target thing is less than first threshold and is greater than Second Threshold; Wherein, described first threshold is greater than Second Threshold;

According to described second detected parameters, judge whether described electronic equipment meets second condition specifically

According to described second detected parameters, judge whether the distance of described electronic equipment relative target thing is less than Second Threshold.

This first detection module and the second detection module can be distance detection module, such as infrared sensor or Proximity Sensor etc. can the sensor of detecting distance or photographing modules, such as depth camera is first-class, can calculate range information according to depth information.

In the implementation that another kind is possible, in the embodiment of the present application, described processing module 403 is according to described first detected parameters, and judging whether described electronic equipment meets first condition can specifically:

According to described first detected parameters, judge whether described electronic equipment meets first condition specifically;

According to described first detected parameters, judge whether described electronic equipment moves, and direction of motion is towards preset direction;

According to described second detected parameters, judge whether described electronic equipment meets second condition specifically:

According to described second detected parameters, judge whether the distance of described electronic equipment relative target thing is less than Second Threshold.

First detected parameters can be kinematic parameter, and the second detected parameters can be distance parameter or image parameter etc.

Namely this preset direction can refer to towards the direction of user's mouth.

In actual applications, when user gathers the sound of oneself by electronic equipment, normally will by electronic equipment near user's mouth, therefore, if detect, electronic equipment moves, and when moving towards mouth, then the sound acquisition module of trigger electronics can switch to the second collecting work pattern, start the collection carrying out sound.And when electronic equipment distance users mouth is nearer, then the sound recognition module of trigger electronics can switch to the second identification mode of operation.

In order to improve accuracy in detection and reduce resource consumption, as another embodiment, described processing module 403 is when described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation after, also for the sound that described sound acquisition module gathers not detected in Preset Time, described first detected parameters does not meet described first condition, or when described second detected parameters does not meet described second condition, from described second, the sound recognition module of described electronic equipment is identified that mode of operation switches to described first and identifies mode of operation, and described electronic equipment sound acquisition module is switched to described first collecting work pattern from described second collecting work pattern.

Also namely the first detected parameters and the second detected parameters can be the parameters of Real-Time Monitoring, respective conditions is not met once it, namely the sound acquisition module of electronic equipment or sound recognition module can be carried out the switching of mode of operation, to reduce the consumption to electronic equipment resource.

If sound acquisition module is not detecting sound in Preset Time, then can show that user is not at sounding, then namely the sound acquisition module of electronic equipment can be switched to the first collecting work pattern, described sound recognition module switches to the first identification mode of operation, to reduce the consumption to electronic equipment resource.

Wherein, in the embodiment of the present application, sound recognition module 405 carries out identification to described 3rd sound can specifically:

Identify the phonetic order comprised in described 3rd sound;

Voice data in described 3rd sound according to different phonetic instruction, can store according to the type that different phonetic instruction is corresponding by processing module 403 respectively.

Utilization can define multiple phonetic order, to distinguish the different phonetic information type that user preserves, such as: schedule, and information memorandum etc.Within special sound instruction set, the discrimination of phonetic order should meet the routine use of user.

Certainly, can also control electronic equipment according to the phonetic order in the 3rd sound and perform respective operations, such as phonetic order for opening some application programs, or is called to some contact persons.

In actual applications, the embodiment of the present application can be Wearable, can be specifically Wrist belt-type equipment.

Therefore as shown in Figure 6, as another embodiment, this electronic equipment can also comprise:

Stuck-module 406, for fixing described electronic equipment, and maintains described electronic equipment and user's body relative position relation at least partially.

Electronic equipment can comprise stuck-module and equipment body, is integrated with first detection module, sound acquisition module, processing module, the second detection module, sound recognition module and other necessary parts in this equipment body.

Electronic equipment can be worn on user's body by stuck-module.

According to the type of electronic equipment, the user's body that this stuck-module can maintain relative position relation can be the wrist of user's health at least partially, and the finger, arm etc. of user's health can the body parts of wearable electronic device.

Wherein, when electronic equipment is Wrist belt-type equipment, electronic equipment is worn on wrist place by user, the technical scheme adopting the embodiment of the present application to provide, and can realize the startup gathering and identify of recording effectively easily.

Therefore, as a kind of possible implementation, this stuck-module block 406 at least has stationary state, described stuck-module as annulus or can meet the first pre-conditioned proximate annular space at least partially, wherein, relatively can be fixed on satisfied second pre-conditioned column peripheral described annulus or described proximate annular space.

Wherein proximate annular space refers to there is opening, the annulus that non-fully is closed.

This first pre-conditionedly that is to say that finger has opening, and openings of sizes is in preset range.Satisfied second pre-conditioned column can be entered in proximate annular space by this opening.

The xsect of this column can be circle or the ellipse of standard, or non-type circle or ellipse.

This second pre-conditionedly can refer to that column xsect directly and this annulus or proximate annular spatial match.The bore of concrete can be column need be less than the bore in annulus or proximate annular space.

This column can be specifically that in two ends, at least one end is greater than, and centre is less than the bore in annulus or proximate annular space, and such as this column can refer to user's wrist.

Wherein, stuck-module and equipment body are connected with multiple implementation.

Possible implementation is that stuck-module specifically can be connected to the relative two ends of equipment body, makes stuck-module be the part in annulus/proximate annular space.

This stuck-module can be formed due to the submodule connected, and one end connection device main body of each submodule, the other end is connected with another submodule.Connection between two submodules for being flexibly connected, thus can conveniently be fixed on user's body.

Certainly, this stuck-module can be as a whole, and one end is connected with one end of equipment body, and the other end is connected with the other end of equipment body.

As the implementation that another kind is possible: this stuck-module oneself forms annulus or proximate annular space, and equipment body is arranged on the outside surface of stuck-module.

As Fig. 7 ~ Fig. 8, show electronic equipment a kind of possible structural drawing in actual applications, only diagrammatically illustrate equipment body 700 and stuck-module 800 in figure, first detection module, sound acquisition module, processing module, the second detection module, sound recognition module and other necessary parts are specifically integrated in equipment body.Electronic equipment shown in Fig. 7 is Wrist belt-type equipment.Stuck-module 800 and equipment body form annulus.

Stuck-module 800 at least has stationary state, all right concrete transitory state, as described in Figure 8, stuck-module one end and the other end arrange web member respectively, one end of stuck-module and the other end can be linked together, form annulus or proximate annular space, be also namely in stationary state.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.For device disclosed in embodiment, because it corresponds to the method disclosed in Example, so description is fairly simple, relevant part illustrates see method part.

Finally, also it should be noted that, in this article, the such as relational terms of first and second grades and so on is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

For convenience of description, various unit is divided into describe respectively with function when describing above device.Certainly, the function of each unit can be realized in same or multiple software and/or hardware when implementing the application.

As seen through the above description of the embodiments, those skilled in the art can be well understood to the mode that the application can add required general hardware platform by software and realizes.Based on such understanding, the technical scheme of the application can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the method described in some part of each embodiment of the application or embodiment.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the application.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from the spirit or scope of the application, can realize in other embodiments.Therefore, the application can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (11)

1. a control method, is characterized in that, comprising:

The first detected parameters is gathered by the first detection module of electronic equipment;

According to described first detected parameters, judge whether described electronic equipment meets first condition;

When described electronic equipment meets described first condition, the sound acquisition module of described electronic equipment is switched to the second collecting work pattern from the first collecting work pattern, wherein, described first collecting work pattern is different from described second collecting work pattern.

2. method according to claim 1, is characterized in that, under described first collecting work pattern, described sound acquisition module does not carry out sound collection; Under described second collecting work pattern, described sound acquisition module carries out sound collection;

Described when described electronic equipment meets described first condition, by the sound acquisition module of described electronic equipment from after the first collecting work pattern switches to the second collecting work pattern, described method also comprises:

The second detected parameters is gathered by the second detection module of described electronic equipment;

According to described second detected parameters, judge whether described electronic equipment meets second condition;

When described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation, wherein, described first identifies that mode of operation and described second identifies that mode of operation is different.

3. method according to claim 2, is characterized in that, under identifying mode of operation described first, described sound recognition module does not identify the sound that described sound acquisition module gathers; Under identifying mode of operation described second, described sound recognition module identifies the sound that described sound acquisition module gathers.

4. method according to claim 3, it is characterized in that, described when described electronic equipment meets described first condition, by the sound acquisition module of described electronic equipment from after the first collecting work pattern switches to the second collecting work pattern, described method also comprises:

Obtain under identifying mode of operation described first, the first sound that described sound acquisition module gathers;

Described when described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation after, described method also comprises:

Obtain and identify under mode of operation described second, the second sound that described sound acquisition module gathers, wherein, described second sound and described first sound continuous;

Obtain and described second sound continuous print from described first sound, the sub-sound of preset duration, described sub-sound and described second sound form continuous print the 3rd sound; By described sound recognition module, described 3rd sound is identified.

5. the method according to any one of claim 2 ~ 4, is characterized in that,

Described according to described first detected parameters, judge whether described electronic equipment meets first condition and comprise:

According to described first detected parameters, judge whether the distance of described electronic equipment relative target thing is less than first threshold and is greater than Second Threshold; Wherein, described first threshold is greater than Second Threshold;

Described according to described second detected parameters, judge whether described electronic equipment meets second condition and comprise:

According to described second detected parameters, judge whether the distance of described electronic equipment relative target thing is less than Second Threshold.

6. the method according to any one of claim 2 ~ 4, is characterized in that,

Described according to described first detected parameters, judge whether described electronic equipment meets first condition and comprise:

According to described first detected parameters, judge whether described electronic equipment moves, and direction of motion is towards preset direction;

Described according to described second detected parameters, judge whether described electronic equipment meets second condition and comprise:

According to described second detected parameters, judge whether the distance of described electronic equipment relative target thing is less than Second Threshold.

7. method according to claim 2, is characterized in that, when described electronic equipment meets described second condition, from first, the sound recognition module of described electronic equipment is identified that mode of operation switches to the second identification mode of operation after, described method also comprises:

The sound of described sound acquisition module collection is not detected, when described electronic equipment does not meet described first condition or described electronic equipment does not meet described second condition in Preset Time, from described second, the sound recognition module of described electronic equipment is identified that mode of operation switches to described first and identifies mode of operation, and described electronic equipment sound acquisition module is switched to described first collecting work pattern from described second collecting work pattern.

8. an electronic equipment, is characterized in that, comprising:

Sound acquisition module, at least has the first collecting work pattern and the second collecting work pattern;

First detection module, for gathering the first detected parameters;

Processing module, for according to described first detected parameters, judges whether described electronic equipment meets first condition; When described electronic equipment meets described first condition, toggle sound acquisition module switches to described second collecting work pattern from described first collecting work pattern, and wherein, described first collecting work pattern is different from described second collecting work pattern.

9. equipment according to claim 8, is characterized in that, also comprises:

Second detection module, for gathering the second detected parameters;

Sound recognition module, at least has the first identification mode of operation and second and identifies mode of operation;

Described sound acquisition module, specifically under described first collecting work pattern, does not carry out sound collection; Under described second collecting work pattern, carry out sound collection;

Described processing module is also for when described electronic equipment meets described first condition, by the sound acquisition module of described electronic equipment from after the first collecting work pattern switches to the second collecting work pattern, according to described second detected parameters, judge whether described electronic equipment meets second condition; When described electronic equipment meets described second condition, trigger described sound recognition module and identify that mode of operation switches to the second identification mode of operation from first, wherein, described first identifies that mode of operation and described second identifies that mode of operation is different.

10. equipment according to claim 8, is characterized in that, also comprises:

Stuck-module, for fixing described electronic equipment, and maintains described electronic equipment and user's body relative position relation at least partially.

11. equipment according to claim 10, it is characterized in that, described stuck-module at least has stationary state, described stuck-module as annulus or can meet the first pre-conditioned proximate annular space at least partially, wherein, relatively can be fixed on satisfied second pre-conditioned column peripheral described annulus or described proximate annular space.