CN104598192B

CN104598192B - Information processing method and electronic equipment

Info

Publication number: CN104598192B
Application number: CN201410837507.2A
Authority: CN
Inventors: 朱少峰
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-12-29
Filing date: 2014-12-29
Publication date: 2018-08-07
Anticipated expiration: 2034-12-29
Also published as: CN104598192A

Abstract

The present invention discloses a kind of information processing method and electronic equipment, and the method is applied to include Audio Processing Unit and be corresponding in the electronic equipment of the first working condition and the second working condition；When in the first working condition, Audio Processing Unit is in running order and execution unit is in off working state；Power consumption when power consumption when electronic equipment is in the first working condition is less than in the second working condition；The method includes：When electronic equipment is in the first working condition, Audio Processing Unit receives and detects the first voice；When it includes instruction voice part to detect the first voice, Audio Processing Unit control electronics are switched to the second working condition from the first working condition；When it further includes content phonological component to detect the first voice, instruction voice and content phonological component are identified, form recognition result；In electronic equipment after the first working condition is switched to the second working condition, according to recognition result and the operating parameter based on determined by content phonological component executes the first operation.

Description

Information processing method and electronic equipment

Technical field

The present invention relates to the information processing of electronic device field more particularly to a kind of information processing methods and electronic equipment.

Background technology

Now with the development of electronic technology, speech recognition and the relevant application of speech recognition are in the electronic device increasingly Extensively, specific as voice wakes up.The voice wakes up to be in the electronic equipment under low dormant state by detecting speech trigger It is switched to state of activation.Usual electronic equipment cannot carry out the work(such as voice communication, short message sending or web page browsing in this state Can, if user needs electronic equipment to execute above-mentioned function, it is necessary to first wake up electronic equipment；And voice wake-up is then that electronic equipment connects Specified speech input by user is received, electronic equipment wakes up the electronic equipment under the action of specified speech；Obvious electronic equipment Intelligent enough height, and then result in that user's operation is cumbersome and user's use feeling degree is poor,

Invention content

In view of this, an embodiment of the present invention is intended to provide a kind of information processing method and electronic equipment, set with solving electronics Standby intelligent not high enough problem.

In order to achieve the above objectives, the technical proposal of the invention is realized in this way：First aspect of the embodiment of the present invention provides A kind of information processing method, be applied to include Audio Processing Unit electronic equipment in；The working condition packet of the electronic equipment Include the first working condition and the second working condition；When the electronic equipment is in first working condition, at the voice It is in running order to manage unit；The power consumption when electronic equipment is in the first working condition is less than in the second work shape Power consumption when state；The method includes：When the electronic equipment is in the first working condition, the Audio Processing Unit receives And detect the first voice input by user；When it includes instruction voice part to detect first voice, at the voice Reason unit controls the electronic equipment and is switched to the second working condition from the first working condition；Wherein, described instruction phonological component It is used to indicate the electronic equipment and executes the first operation；When it further includes content phonological component to detect first voice, know Other described instruction voice and content phonological component form recognition result；The content phonological component is used to indicate first electricity Sub- equipment determines to execute operates associated operating parameter with described first；The recognition result includes the operating parameter；Institute Electronic equipment is stated after first working condition is switched to second working condition, according to the recognition result and is based on institute It states operating parameter determined by content phonological component and executes first operation.

Preferably, the Audio Processing Unit includes voice wakeup unit；The voice wakeup unit includes memory module； The electronic equipment further includes voice recognition unit；The method further includes：First language is stored using the memory module Sound；It is described when it further includes content phonological component to detect first voice, identify described instruction voice and content voice portion Point, recognition result is formed, including：In the electronic equipment second working condition is switched to from first working condition Afterwards, the voice recognition unit receives first voice from the memory module；It identifies first voice, forms the knowledge Other result.

Preferably, the voice wakeup unit includes codec；The codec includes storing first voice The memory module.Preferably, described to store first voice using the memory module, including：The memory module After receiving n-th the first voice input by user, the n-th the first voice input by user is covered into (n-1)th user First voice of input, to store the n-th first voice input by user；Wherein, the integer that the n is not small 2.

Preferably, the Audio Processing Unit includes voice wakeup unit and voice recognition unit；The electronic equipment is also Execution unit including executing first operation；It is described when it includes instruction voice part to detect first voice, The Audio Processing Unit controls the electronic equipment and is switched to the second working condition from the first working condition, including：Institute's predicate Sound wake-up module is switched to second working condition for controlling the electronic equipment from the first working condition；It is described to work as inspection When to measure first voice further include content phonological component, described instruction voice and content phonological component are identified, form identification As a result, including：While detecting first voice, sound identification module identification described instruction phonological component and described Content phonological component forms recognition result；The method further includes：Switch from first working condition in the electronic equipment To after second working condition, the recognition result is sent to the execution unit by the sound identification module.

Preferably, described when first voice includes described instruction phonological component, the Audio Processing Unit control It makes the electronic equipment and is switched to second working condition from the first working condition and include：Extract in first voice One phonetic feature；First phonetic feature is compared with pre-stored second phonetic feature, forms comparison result；According to According to the comparison result, the switching of the working condition of the electronic equipment is controlled.

Second aspect of the embodiment of the present invention provides a kind of electronic equipment, and the electronic equipment includes Audio Processing Unit；Institute The working condition for stating electronic equipment includes the first working condition and the second working condition；It is in described first in the electronic equipment When working condition, the Audio Processing Unit is in running order；The electronic equipment is in power consumption when the first working condition Power consumption when less than in second working condition；The Audio Processing Unit, for being in first when the electronic equipment When working condition, receives and detect the first voice input by user；The Audio Processing Unit is additionally operable to when detecting described the When one voice includes instruction voice part, controls the electronic equipment and be switched to the second working condition from the first working condition； Wherein, described instruction phonological component is used to indicate the electronic equipment and executes the first operation；The electronic equipment further includes：Voice Recognition unit；For when it further includes content phonological component to detect first voice, identifying described instruction voice and content Phonological component forms recognition result；The content phonological component be used to indicate first electronic equipment determine execute with it is described The first associated operating parameter of operation；The recognition result includes the operating parameter；Execution unit, for being set in the electronics For after first working condition is switched to second working condition, according to the recognition result and it is based on the content language Operating parameter determined by line point executes first operation.

Preferably, the Audio Processing Unit includes voice wakeup unit；The voice wakeup unit includes memory module； The memory module, for storing first voice；The voice recognition unit is specifically used in the electronic equipment from institute It states after the first working condition is switched to second working condition, first voice is received from the memory module；And identification First voice, forms the recognition result.

Preferably, the voice wakeup unit includes codec；The codec includes storing first voice The memory module.

Preferably, the memory module, for after receiving n-th the first voice input by user, by the n-th First voice input by user covers (n-1)th the first voice input by user, input by user described to store the n-th First voice；Wherein, the integer that the n is not small 2.

Preferably, the Audio Processing Unit includes voice wakeup unit and voice recognition unit；The voice wakes up single Member, for when it includes instruction voice part to detect first voice, controlling the electronic equipment from the first work shape State is switched to the second working condition；The voice wake-up module switches for controlling the electronic equipment from the first working condition To second working condition；The voice recognition unit, for while detecting first voice, identifying described instruction Phonological component and the content phonological component form recognition result；And it is cut from first working condition in the electronic equipment It changes to after second working condition, the recognition result is sent to the execution unit.

Preferably, the Audio Processing Unit is specifically used for extracting the first phonetic feature of first voice；It will be described First phonetic feature is compared with pre-stored second phonetic feature, forms comparison result；And according to the comparison result, Control the switching of the working condition of the electronic equipment.

Information processing method of the embodiment of the present invention and electronic equipment, when electronic equipment is under the first working condition, institute It is in running order to state Audio Processing Unit；And the Audio Processing Unit can receive the first voice input by user；And root Wake up electronic equipment according to phonological component is instructed in first voice, and in the first voice instruction voice part and content Phonological component is identified, and formation includes the recognition result with the first associated operating parameter of operation, and is waken up and cuts in equipment After changing to the second working condition, first operation is executed；Even if obviously electronic equipment in this way is in wake-up states, user only needs An operation voice for including instruction voice part and content phonological component is inputted, electronic equipment will execute wake-up behaviour automatically Make, and executes the first operation specified in operation voice after being woken；Middle user needs by calling out compared with the existing technology Voice of waking up wakes up electronic equipment, then inputs operation voice, control electronics to electronic equipment after electronic equipment is waken up Execute the first operation, it is clear that simplify user's operation, the intelligent higher of electronic equipment, and accelerate electronic equipment in this way to behaviour Make the speed of response of voice.

Description of the drawings

Fig. 1 is one of the flow diagram of information processing method described in the embodiment of the present invention；

Fig. 2 is the two of the flow diagram of the information processing method described in the embodiment of the present invention；

Fig. 3 is the flow diagram of the control electronics working condition switching described in the embodiment of the present invention；

Fig. 4 is one of the effect diagram of information processing method described in the embodiment of the present invention；

Fig. 5 is the two of the effect diagram of the information processing method described in the embodiment of the present invention；

Fig. 6 is the structural schematic diagram of the electronic equipment described in the embodiment of the present invention.

Specific implementation mode

Technical scheme of the present invention is further elaborated below in conjunction with Figure of description and specific embodiment.

Embodiment of the method one：

As shown in Figure 1, the present embodiment provides a kind of information processing method, set applied to the electronics including Audio Processing Unit In standby；The working condition of the electronic equipment includes the first working condition and the second working condition；It is in the electronic equipment When first working condition, the Audio Processing Unit is in running order；The electronic equipment is in the first working condition When power consumption be less than in second working condition when power consumption；

The method includes：

Step S110：When the electronic equipment is in the first working condition, the Audio Processing Unit is received and is detected First voice input by user；

Step S120：When it includes instruction voice part to detect first voice, the Audio Processing Unit control It makes the electronic equipment and is switched to the second working condition from the first working condition；Wherein, described instruction phonological component is used to indicate The electronic equipment executes the first operation；

Step S130：When it further includes content phonological component to detect first voice, identification described instruction voice and Content phonological component forms recognition result；The content phonological component be used to indicate first electronic equipment determine execute with The associated operating parameter of first operation；The recognition result includes the operating parameter；

Step S140：In the electronic equipment after first working condition is switched to second working condition, according to According to the recognition result and the operating parameter based on determined by the content phonological component executes first operation.

First electronic equipment can be the electronic equipments such as mobile phone, tablet computer or e-book, be chosen as mobile electron Equipment.

First working condition can be the low power consumpting states such as dormant state, at this point, the application processing of the electronic equipment The applications such as device and execution unit or processing structure are all in off working state, to save power consumption.Second working condition can be The electronic equipments such as state of activation can normally execute the working condition of various operations, in this state the power consumption of the electronic equipment It is relatively high in first working condition.

In the present embodiment, when the electronic equipment is in the first working condition, the Audio Processing Unit is in work It can be worked normally when making state；Specifically such as, it can receive and wake up voice and wake up electronic equipment.Usually in the electronic equipment After second working condition, the Audio Processing Unit may be at working condition or off working state；It is chosen as locating In off working state, to reduce power consumption of the electronic equipment under second working condition.

First voice is that user wants the voice operating instruction sent to the electronic equipment by voice, specifically such as " making a phone call to Zhang San ", this is an operation voice.Wherein, described " making a phone call " is instruction voice part, indicates electronic equipment Execute the operation made a phone call；Described is to make a phone call that this operates associated content phonological component with described " to Zhang San ", according to interior Holding phonological component can determine to make a phone call to whom.

For another example, first voice can also be such as " browsing Sina weibo ".At this point, " browsing " and " microblogging " are i.e. The operation for opening microblogging application is executed for instruction electronic equipment, if current electronic device can run Sina weibo application, Tencent Which microblogging microblogging application specifically opens, then the content phonological component " Sina " in described " browsing Sina weibo " defines The operating parameter of microblogging application is opened, Sina weibo application is specially opened.

Obviously described instruction phonological component can be phonological component continuously distributed in the first voice, can also be the first language The phonological component of discrete distribution in sound；Continuously distributed instruction voice part includes " making a phone call " or " sending short messages " etc..Discrete point The instruction voice part of cloth is constituted including " browsing " and " microblogging ".

In general, described instruction phonological component may include at least a verb, the verb is that instruction electronic equipment executes The action of first operation, specific " beating " as in " making a phone call ", " hair " and " browsing xx microbloggings " in " sending short messages " for another example In " browsing ", these verbs show refer to show electronic equipment execute one action.And the content phonological component may be right Answer be a noun or pronoun etc. have indicative noun or pronoun phrase, may be directed toward one direction described instruction language The object that action is directed toward in line point；It is specific such as make a phone call to Zhang San rather than Li Si or other people, what is such as browsed is Sina weibo, Rather than Tencent's microblogging；" consulting the short breath finally received " for another example, what is consulted is the short message finally received, rather than be most recently received Second from the bottom short message.

Realize when, the electronic equipment can on one side receive, side storage and while detect the first voice.When described first Voice is described " making a phone call to Zhang San ".When detecting, it is found that the voice includes the instruction voice part of " making a phone call ", the portion Divide voice to can be used for triggering the Audio Processing Unit simultaneously and wake up first electronic equipment, controls first electronic equipment Second working condition is switched to by first working condition.

It, then will be further to content voice portion when it includes the content phonological component to detect first voice Point and described instruction voice be identified, herein, speech recognition may include the semantics recognition of voice content, form identification knot Fruit.The operating parameter that the recognition result will be formed including identifying the content phonological component.

It is this to receive and detect simultaneous operation, relative to being detected again after receiving complete the first voice, it is advanced by The initial time of detection, acquisition testing result that can be earlier wake up electronic equipment faster, are rung from that can promote electronic equipment Answer the response speed of the first voice.

In step S140, after the electronic equipment is switched to the second working condition, tied being identified described in direct basis Fruit executes first operation；User only executes the voice of the first operation with one instruction electronic equipment of output in this way, then electronics Equipment will execute wake-up automatically, and the second working condition, and execution pair in a second operative state are switched to from the first working condition The operation answered, user without to one wake-up voice of electronic equipment input, determining electronic equipment first compared with the existing technology The operation voice that instruction electronic equipment executes the first operation is inputted after being waken up again, it is clear that the intelligent higher of electronic equipment, Electronic equipment is in faster and more intelligent to the response speed of voice operating under the first working condition, and the use for improving user is full Meaning degree.

Embodiment of the method two：

The method includes：

The Audio Processing Unit includes voice wakeup unit；The voice wakeup unit includes memory module；

The electronic equipment further includes voice recognition unit；

As shown in Fig. 2, the method further includes：

Step S111：First voice is stored using the memory module；

The step S130 may include：

In the electronic equipment after first working condition is switched to second working condition, the speech recognition Unit receives first voice from the memory module；

It identifies first voice, forms the recognition result.

Further improvement is done in the present embodiment in embodiment of the method one, in the present embodiment the speech processes list Member includes the voice wakeup unit for executing the electronic equipment and waking up；And the voice wakeup unit further includes memory module.Institute It includes storing the storage medium of first voice to state memory module.

The voice recognition unit is the functional entity that semantics recognition can be carried out to the first voice, in the electronic equipment When in the first working condition, off working state can also be in by being likely to be at working condition, can be described in the present embodiment Voice recognition unit is in off working state, further to save the power consumption of electronic equipment.

The memory module will store first voice in the present embodiment；It is switched to the second work in the electronic equipment After making state, by first voice transfer to voice recognition unit；The voice recognition unit carries out first voice Identification.Speech recognition herein includes：Identification to instruction voice part and content phonological component.

Information processing method described in the present embodiment further defines progress based on the method described in embodiment of the method one The executive agent of speech recognition and opportunity have the advantages that easy to operate.

Embodiment of the method three：

The method includes：

The electronic equipment further includes voice recognition unit；

As shown in Fig. 2, the method further includes：

Step S111：First voice is stored using the memory module；

The step S130 may include：

It identifies first voice, forms the recognition result.

The voice wakeup unit includes codec；The codec includes that the described of storage first voice is deposited Store up module.

Specifically, the voice wakeup unit includes codec；The codec includes storage medium；The storage medium can be Above-mentioned memory module, the codec is delicate structure and the low structure of hardware cost, in the intelligence for improving electronic equipment While property, moreover it is possible to keep the delicate structure and simplicity of electronic equipment.

Embodiment of the method four：

The method includes：

The electronic equipment further includes voice recognition unit；

As shown in Fig. 2, the method further includes：

Step S111：First voice is stored using the memory module；

The step S130 may include：

It identifies first voice, forms the recognition result.

The step S111 may include：

After the memory module receives n-th the first voice input by user, by the n-th input by user first Voice covers (n-1)th the first voice input by user, to store the n-th first voice input by user；

Wherein, the integer that the n is not small 2.

In order to keep the electronic devices structure simple and low cost, the memory capacity of the storage medium of the memory module What is be usually arranged is smaller, and uses the characteristics of voice fails in time in voice control electronic equipment according to user, in the present embodiment Described in storage medium, when storing first voice, the language before the first voice being currently received timely is covered Sound；The first voice voice that always user most inputs that subsequent speech recognition unit is received from the memory module in this way, side Just user speech instruction is accurately executed；Obviously it is elegance and simple electronic devices structure not only to be realized in this way Change, moreover it is possible to ensure electronic equipment to the specified accuracy executed of user speech.

Embodiment of the method five：

The method includes：

The Audio Processing Unit includes voice wakeup unit and voice recognition unit；The electronic equipment further includes executing The execution unit of first operation；

The step S120 may include：

The voice wake-up module controls the electronic equipment and is switched to second working condition from the first working condition；

The step S130 may include：

While detecting first voice, sound identification module identification described instruction phonological component and described interior Hold phonological component, forms recognition result；

The method further includes：

In the electronic equipment after first working condition is switched to second working condition, the voice is known The recognition result is sent to the execution unit by other module.

It includes that can control the electronic equipment from the to further define the Audio Processing Unit in the present embodiment One working condition is switched to the voice wake-up module of second working condition, at the same further include can to first voice into The sound identification module of row identification.

First voice can be identified while carrying out working condition switching in electronic equipment in this way；Or First voice can be identified while being detected to first voice, form corresponding recognition result, Thus it is being switched to the second working condition without electronic equipment and then the first voice is being identified.Obviously in this implementation Electronic equipment described in example may form institute's speech recognition result or shape already after being switched to the second working condition At part of speech recognition result, the electronic equipment can be directly according to established recognition result or the identification knot that will be formed Fruit carries out the execution of first operation.

The initial time of the identification operation of obvious first voice is advanced by, and is clearly advantageous to improve the electronics in this way User satisfaction of the equipment to the speed of response and user of first voice.

Embodiment of the method six：

The method includes：

As shown in figure 3, described when first voice includes described instruction phonological component, the Audio Processing Unit It controls the electronic equipment and is switched to second working condition from the first working condition and include：

Step S121：Extract the first phonetic feature of first voice；

Step S122：First phonetic feature is compared with pre-stored second phonetic feature, formation is compared As a result；

Step S123：According to the comparison result, the switching of the working condition of the electronic equipment is controlled.

In the present embodiment in order to realize the safe to use of the electronic equipment, the electronic equipment inner storag information is protected Information security, in the present embodiment execute electronic equipment from the first working condition to the switching of second working condition When, the first phonetic feature of first voice will be also extracted, pre-stored second phonetic feature is compared.This place It states the first phonetic feature and second phonetic feature may each comprise vocal print feature.

When the comparison result of first phonetic feature and second phonetic feature shows two languages in step S123 When the difference of sound feature is less than the similarity of preset range value or two phonetic features more than specified threshold, then the electronics is controlled Equipment is switched to second working condition from the first working condition, does not otherwise execute first working condition to the second work The switching of state.

Information processing method described in the present embodiment is being further improved based on above-mentioned any embodiment, is not only increased The intelligent and users' satisfaction degree of electronic equipment, and can also ensure the safety of electronic equipment well.

Two specific examples are provided below in conjunction with above-mentioned any embodiment：

Example one：

As shown in figure 4, at the T1 moment, the electronic equipment is in the first working condition, at this point, Audio Processing Unit is in Working condition, voice recognition unit be in off working state, Audio Processing Unit and be in off working state speech recognition list It is connected by bus internal communications interface between other functional units of the electronic equipments such as member.

Include instruction voice detecting first voice after Audio Processing Unit receives the first voice at the T1 moment When content part, wake-up signal is sent to functional units such as voice recognition units in off working state, makes second electricity Sub- equipment is switched to the second working condition.

At the T2 moment, electronic equipment, which is waken up, is switched to the second working condition, the switching of the structures such as described voice recognition unit To working condition, at this point, first voice is sent to voice recognition unit by Audio Processing Unit.Wherein, the T2 moment At the time of to be later than the T1 moment.

The voice recognition unit will identify that first voice forms recognition result, and the follow-up execution unit will be according to institute It states recognition result and executes the first operation.

Example two：

As shown in figure 5, at the T1 moment, the electronic equipment is in the first working condition, at this point, Audio Processing Unit is in Working condition, voice recognition unit are in non-off working state, Audio Processing Unit and the execution list in off working state It is connected by the internal communications interface of the electronic equipments such as bus between the functional units such as member.

Include instruction voice detecting first voice after Audio Processing Unit receives the first voice at the T1 moment When content part, wake-up signal is sent to the execution unit etc. in off working state, second electronic equipment is made to be switched to Second working condition.The Audio Processing Unit will also identify the instruction voice part in first voice and content voice portion Divide and be identified, forms recognition result.

At the T3 moment, electronic equipment, which is waken up, is switched to the second working condition, and the structures such as described execution unit are switched to work Make state, at this point, the recognition result is sent to execution unit by Audio Processing Unit.Execution unit will be tied according to the identification Fruit executes the first operation.

Wherein, the T3 moment is at the time of being later than the T1 moment.

Known to comparative examples one and example two：The identification of first voice is electronic equipment upon awakening by voice in example one What recognition unit executed；And first voice has Audio Processing Unit to be identified in example two, execution unit is being waken up Recognition result is directly received afterwards executes the first operation.

Apparatus embodiments one：

As shown in fig. 6, the present embodiment provides a kind of electronic equipment, the electronic equipment includes Audio Processing Unit 110；Institute The working condition for stating electronic equipment includes the first working condition and the second working condition；It is in described first in the electronic equipment When working condition, the Audio Processing Unit is in running order；The electronic equipment is in power consumption when the first working condition Power consumption when less than in second working condition；

The Audio Processing Unit 110, for when the electronic equipment is in the first working condition, receiving and detecting use First voice of family input；

The Audio Processing Unit 110 is additionally operable to when it includes instruction voice part to detect first voice, control It makes the electronic equipment and is switched to the second working condition from the first working condition；Wherein, described instruction phonological component is used to indicate The electronic equipment executes the first operation；

The electronic equipment further includes：

Voice recognition unit 120；For when it further includes content phonological component to detect first voice, described in identification Instruction voice and content phonological component form recognition result；The content phonological component is used to indicate first electronic equipment It determines to execute and operates associated operating parameter with described first；The recognition result includes the operating parameter；

Execution unit 130, for being switched to the second work shape from first working condition in the electronic equipment After state, according to the recognition result and the operating parameter based on determined by the content phonological component executes first operation.

The Audio Processing Unit 110 may include phonographic recorder；The phonographic recorder at least can be used for caching first voice； The voice recognition unit specifically may include storage medium and speech analysis device, for storing first voice；The voice Resolver may include database and processing chip or processor again；The processing chip is used for according to storing in the database The feature of speech analysis detects first voice.

The concrete structure of the voice recognition unit 120 may include speech recognition database and speech recognition processor or Processing chip.The execution unit 1301 may include processor, specifically such as execute it is various first operation application processor or in Central processor.

Voice wakeup unit described in the present embodiment and the processor in speech recognition can be microprocessor or digital signal Processor or programmable array etc. have the processor of processing function, the preferably processor of low-power consumption.

Explaining in detail for instruction voice part and content phonological component in first voice can be found in embodiment of the method As soon as being not repeated herein.

Electronic equipment described in the present embodiment is used to be the information processing method described in embodiment of the method one, and it is hard to provide realization Part similarly has intelligent height, the high advantage of the more preferable and users' satisfaction degree that electronic equipment is utilized.

Apparatus embodiments two：

The electronic equipment further includes：

The memory module, for storing first voice；

The voice recognition unit 120, specifically for being switched to institute from first working condition in the electronic equipment After stating the second working condition, the voice recognition unit receives first voice from the memory module；And identification described the One voice forms the recognition result.

The voice wakeup unit may include memory module, and the storage includes storage medium；The storage medium is available In storage first voice.There is connection between the voice recognition unit 120 and the memory module, specifically such as passes through address Bus and data/address bus are attached with the memory module.

The present embodiment further determines that the structure of the Audio Processing Unit, and defines that the voice wakeup unit includes Storage medium；The voice recognition unit be in the electronic equipment after the first working condition is switched to the second working condition First voice is identified.

Electronic equipment described in the present embodiment has and can execute electronics automatically according to one input by user operation voice The wake-up of equipment and corresponding operation have the advantages that advantage that is intelligent high, while having both simple in structure.

Apparatus embodiments three:

The electronic equipment further includes：

The memory module, for storing first voice；

The present embodiment further defined on the basis of a upper embodiment voice wakeup unit be it is simple in structure, at This low and low in energy consumption codec codec；The codec carries storage medium, and the storage medium constitutes the storage mould Block can be further simplified the structure of the electronic equipment and can keep the low cost of the electronic equipment in this way.

Apparatus embodiments three：

The electronic equipment further includes：

The memory module, for storing first voice；

The voice recognition unit 120, specifically for being switched to institute from first working condition in the electronic equipment After stating the second working condition, first voice is received from the memory module；And identification first voice, form the knowledge Other result.

The memory module, it is for after receiving n-th the first voice input by user, the n-th user is defeated The first voice entered covers (n-1)th the first voice input by user, to store the n-th first language input by user Sound；

Wherein, the integer that the n is not small 2.

Memory module described in the present embodiment only stores the voice that last time receives, and can not require described deposit in this way Storage module has larger memory capacity；And last time voice is covered into previous voice in this way, voice can be avoided in this way Recognition unit receives previous voice, and the problem of lead to error in operation.

The storage medium that the memory module includes can be the storage mediums such as RAM or flash.

Apparatus embodiments four：

The electronic equipment further includes：

The Audio Processing Unit 110 includes voice wakeup unit and the voice recognition unit 120；

The voice wakeup unit, for when it includes instruction voice part to detect first voice, controlling institute It states electronic equipment and is switched to the second working condition from the first working condition；

The voice wake-up module is switched to second work for controlling the electronic equipment from the first working condition State；

The voice recognition unit 120 is specifically used for while detecting first voice, identifies described instruction voice Part and the content phonological component form recognition result；And it is switched to from first working condition in the electronic equipment After second working condition, the recognition result is sent to the execution unit.

The Audio Processing Unit includes voice wake-up module and sound identification module in the present embodiment, i.e., in the electricity When sub- equipment is in the first working condition, the electronic equipment can either receive detection first voice, realize the electricity Sub- equipment is switched to second working condition from the first working condition, while first voice can also be identified, shape At recognition result, after the electronic equipment is waken up, the recognition result is directly sent to execution unit and carries out first The execution of operation.

Present embodiments provide a kind of electronic equipment different from apparatus embodiments two to apparatus embodiments three, this electricity Audio Processing Unit described in sub- equipment includes voice wake-up module and sound identification module, and such electronic equipment can be waken up The identification that can complete the first voice before, can improve the speed of response of voice operating in this way.

Apparatus embodiments six：

The electronic equipment further includes：

The Audio Processing Unit 110, specifically for extracting the of the specified speech carried in first voice One feature；First phonetic feature is compared with pre-stored second feature, forms comparison result；And according to described Comparison result controls the switching of the working condition of the electronic equipment.

Audio Processing Unit described in the present embodiment includes extraction module, is specifically used for extracting the first voice spy Sign.Audio Processing Unit further includes memory module；The memory module is for storing second phonetic feature.Here described First phonetic feature and the second phonetic feature can be vocal print features.The Audio Processing Unit further includes comparator or has The processor or chip of comparing function, for first phonetic feature and the second phonetic feature to be compared, to obtain ratio Relatively result.The Audio Processing Unit will determine whether to execute wake operation according to comparison result, make the electronic equipment from the One working condition is switched to the second working condition.Usually when the comparison result shows first phonetic feature and the second voice Characteristic similarity can perform wake operation higher than similarity threshold or when thinking that phase margin is less than discrepancy threshold range.

Audio Processing Unit described in the present embodiment can not only realize electronic equipment in the first operative state, intelligently hold Row voice operating, and can ensure the safe to use and information security of the electronic equipment by comparing verifying.

In several embodiments provided herein, it should be understood that disclosed device and method can pass through it Its mode is realized.Apparatus embodiments described above are merely indicative, for example, the division of the unit, only A kind of division of logic function, formula that in actual implementation, there may be another division manner, such as：Multiple units or component can combine, or It is desirably integrated into another system, or some features can be ignored or not executed.In addition, shown or discussed each composition portion It can be the INDIRECT COUPLING by some interfaces, equipment or unit to divide mutual coupling or direct-coupling or communication connection Or communication connection, can be electrical, mechanical or other forms.

The above-mentioned unit illustrated as separating component can be or may not be and be physically separated, aobvious as unit The component shown can be or may not be physical unit, you can be located at a place, may be distributed over multiple network lists In member；Some or all of wherein unit can be selected according to the actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in various embodiments of the present invention can be fully integrated into a processing module, also may be used It, can also be during two or more units be integrated in one unit to be each unit individually as a unit；It is above-mentioned The form that hardware had both may be used in integrated unit is realized, can also be realized in the form of hardware adds SFU software functional unit.

One of ordinary skill in the art will appreciate that：Realize that all or part of step of above method embodiment can pass through The relevant hardware of program instruction is completed, and program above-mentioned can be stored in a computer read/write memory medium, the program When being executed, step including the steps of the foregoing method embodiments is executed；And storage medium above-mentioned includes：It is movable storage device, read-only Memory (ROM, Read-Only Memory), random access memory (RAM, Random Access Memory), magnetic disc or The various media that can store program code such as person's CD.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be based on the protection scope of the described claims.

Claims

1. a kind of information processing method, be applied to include Audio Processing Unit electronic equipment in；The work of the electronic equipment State includes the first working condition and the second working condition；It is described when the electronic equipment is in first working condition Audio Processing Unit is in running order；The power consumption when electronic equipment is in the first working condition, which is less than, is in described second Power consumption when working condition；

The method includes：

When the electronic equipment is in the first working condition, the Audio Processing Unit receives and detects input by user first Voice；

When it includes instruction voice part to detect first voice, the Audio Processing Unit controls the electronic equipment It is switched to the second working condition from the first working condition；Wherein, described instruction phonological component is used to indicate the electronic equipment and holds Row first operates；

When it further includes content phonological component to detect first voice, described instruction voice and content phonological component are identified, Form recognition result；The content phonological component is used to indicate the electronic equipment and determines that execution and first operation are associated Operating parameter；The recognition result includes the operating parameter；

In the electronic equipment after first working condition is switched to second working condition, according to the recognition result And the operating parameter based on determined by the content phonological component executes first operation.

2. according to the method described in claim 1, it is characterized in that,

The electronic equipment further includes voice recognition unit；

The method further includes：

First voice is stored using the memory module；

It is described when it further includes content phonological component to detect first voice, identify described instruction voice and content voice portion Point, recognition result is formed, including：

In the electronic equipment after first working condition is switched to second working condition, the voice recognition unit First voice is received from the memory module；

It identifies first voice, forms the recognition result.

3. according to the method described in claim 2, it is characterized in that,

The voice wakeup unit includes codec；The codec includes the storage mould for storing first voice Block.

4. according to the method in claim 2 or 3, which is characterized in that

It is described to store first voice using the memory module, including：

After the memory module receives n-th the first voice input by user, by the n-th the first voice input by user (n-1)th the first voice input by user is covered, to store the n-th first voice input by user；

Wherein, the integer that the n is not small 2.

5. according to the method described in claim 1, it is characterized in that,

The Audio Processing Unit includes voice wakeup unit and voice recognition unit；The electronic equipment further includes described in execution The execution unit of first operation；

It is described when it includes instruction voice part to detect first voice, the Audio Processing Unit controls the electronics Equipment is switched to the second working condition from the first working condition, including：

The voice wake-up module is switched to the second work shape for controlling the electronic equipment from the first working condition State；

While detecting first voice, the sound identification module identification described instruction phonological component and the content language Line point forms recognition result；

The method further includes：

In the electronic equipment after first working condition is switched to second working condition, the speech recognition mould The recognition result is sent to the execution unit by block.

6. according to claims 1 to 3 or 5 any one of them methods, which is characterized in that

It is described when first voice includes described instruction phonological component, the Audio Processing Unit controls the electronics and sets Include for second working condition is switched to from the first working condition：

Extract the first phonetic feature in first voice；

First phonetic feature is compared with pre-stored second phonetic feature, forms comparison result；

According to the comparison result, the switching of the working condition of the electronic equipment is controlled.

7. a kind of electronic equipment, the electronic equipment includes Audio Processing Unit；The working condition of the electronic equipment includes the One working condition and the second working condition；When the electronic equipment is in first working condition, the speech processes list Member is in running order；When power consumption when the electronic equipment is in the first working condition is less than in second working condition Power consumption；

The Audio Processing Unit, for when the electronic equipment is in the first working condition, receiving and detecting user's input The first voice；

The Audio Processing Unit is additionally operable to when it includes instruction voice part to detect first voice, described in control Electronic equipment is switched to the second working condition from the first working condition；Wherein, described instruction phonological component is used to indicate the electricity Sub- equipment executes the first operation；

The electronic equipment further includes：

Voice recognition unit；For when it further includes content phonological component to detect first voice, identifying described instruction language Sound and content phonological component form recognition result；The content phonological component be used to indicate the electronic equipment determine execute with The associated operating parameter of first operation；The recognition result includes the operating parameter；

Execution unit, in the electronic equipment after first working condition is switched to second working condition, according to According to the recognition result and the operating parameter based on determined by the content phonological component executes first operation.

8. electronic equipment according to claim 7, which is characterized in that

The memory module, for storing first voice；

The voice recognition unit, specifically for being switched to second work from first working condition in the electronic equipment After making state, first voice is received from the memory module；And identification first voice, form the recognition result.

9. electronic equipment according to claim 8, which is characterized in that

10. electronic equipment according to claim 8 or claim 9, which is characterized in that

The memory module, it is for after receiving n-th the first voice input by user, the n-th is input by user First voice covers (n-1)th the first voice input by user, to store the n-th first voice input by user；

Wherein, the integer that the n is not small 2.

11. electronic equipment according to claim 7, which is characterized in that

The Audio Processing Unit includes voice wakeup unit and the voice recognition unit；

The voice wakeup unit, for when it includes instruction voice part to detect first voice, controlling the electricity Sub- equipment is switched to the second working condition from the first working condition；

The voice recognition unit, be specifically used for while detect first voice, identification described instruction phonological component with The content phonological component forms recognition result；And described is switched to from first working condition in the electronic equipment After two working conditions, the recognition result is sent to the execution unit.

12. according to claim 7 to 9 or 11 any one of them electronic equipments, which is characterized in that

The Audio Processing Unit is specifically used for extracting the first phonetic feature of first voice；By first voice spy Sign is compared with pre-stored second phonetic feature, forms comparison result；And according to the comparison result, control the electricity The switching of the working condition of sub- equipment.