CN104049869B - A kind of data processing method and device - Google Patents

Abstract

This application discloses a kind of data processing method and device, applied to electronic equipment, methods described obtains the target airflow parameter of the electronic equipment position using the first sensing unit；Default correspondence set is obtained, the correspondence set includes at least one flow parameter and the corresponding relation of operational order；According to the correspondence set, it is determined that the object run order corresponding with the target airflow parameter；Respond the object run order.Pass through the embodiment of the present application, realize the operation realized when user directly can not carry out manual control electronics to needed for electronic equipment progress, avoiding in the prior art user voice signal and other voice signals can not be identified causes operational error to influence the situation for experience, the air-flow produced when electronic equipment being spoken or blown afloat by sensing user, corresponding operational order is determined according to the parameter of air-flow, the purpose of gas flow optimized electronic equipment is realized afterwards.

Description

A kind of data processing method and device

Technical field

The application is related to digital control technology field, more particularly to a kind of data processing method and device.

Background technology

When using electronic equipment such as mobile phone or pad, situation about can not be operated manually is tended to occur, such as user is entering Row meal, pottery art etc. are hand-manipulated and need to use the situation that electronic equipment is inquired about or other are operated.

To realize without manually operated, Voice command scheme is generally used.But above-mentioned Voice command scheme can only be carried out linearly None- identified user speech and other voices, cause the electronics of user to set in control operation, and voice environment residing for electronic equipment It is standby to be controlled by other voices and carry out certain operation so that user is disturbed when using electronic equipment, and reduction is used Experience at family.

The content of the invention

Technical problems to be solved in this application are to provide a kind of data processing method and device, to solve existing voice In the scheme of control operation, it is impossible to recognize user speech and other voices so that user is disturbed when using electronic equipment, drop The technical problem of low Consumer's Experience.

This application provides a kind of data processing method, applied to electronic equipment, methods described includes：

The target airflow parameter of the electronic equipment position is obtained using the first sensing unit；

Default correspondence set is obtained, the correspondence set includes at least one flow parameter and operational order Corresponding relation；

According to the correspondence set, it is determined that the object run order corresponding with the target airflow parameter；

Respond the object run order.

The above method, it is preferred that first sensing unit includes pneumatic sensor, described to be obtained using the first sensing unit The target airflow parameter of the electronic equipment position is obtained, including：

Using pneumatic sensor, directioin parameter and intensity ginseng that the pneumatic sensor position flows through air-flow are obtained Number, the directioin parameter and intensive parameter composition target airflow parameter.

The above method, it is preferred that the target gas that the electronic equipment position is obtained using the first sensing unit Parameter is flowed, including;

Using the first sensing unit, directioin parameter and intensity ginseng that the electronic equipment position flows through air-flow are obtained Number；

And the audio parameter of the electronic equipment position is obtained using the second sensing unit；

According to the audio parameter, the directioin parameter and intensive parameter composition target airflow parameter are determined.

The above method, it is preferred that the corresponding relation is：Pair of the corresponding signal level value of flow parameter and operational order It should be related to；

Wherein, it is described according to the correspondence set, it is determined that the object run corresponding with the target airflow parameter Order, including：

The target airflow parameter is parsed, the electric signal corresponding with the target airflow parameter, the electric signal is generated Including at least one signal level value；

According to the correspondence set, it is determined that the object run order corresponding with the signal level value.

The above method, it is preferred that the target gas that the electronic equipment position is obtained using the first sensing unit Parameter is flowed, including：

The target of electronic equipment position described in N number of sub- period in target time section is obtained using the first sensing unit Flow parameter, N is the integer more than or equal to 1；

Wherein, the response object run order includes：

N number of object run order is responded successively.

The above method, it is preferred that described to respond N number of object run order successively and include：

In the target time section, respond what is obtained respectively with each sub- period in N number of sub- period successively The corresponding object run order of target airflow parameter.

The above method, it is preferred that described to respond N number of object run order successively and include：

In the target time section, the mesh that lasting response is obtained with first in N number of sub- period sub- period Mark the corresponding object run order of flow parameter.

Present invention also provides a kind of data processing equipment, applied to electronic equipment, described device includes：

Parameter acquiring unit, the target airflow ginseng for obtaining the electronic equipment position using the first sensing unit Number；

Gather acquiring unit, for obtaining default correspondence set, the correspondence set includes at least one The corresponding relation of flow parameter and operational order；

Command determination unit, for according to the correspondence set, it is determined that corresponding with the target airflow parameter Object run order；

Command response unit, for responding the object run order.

Said apparatus, it is preferred that first sensing unit includes pneumatic sensor；

Wherein, the parameter acquiring unit, specifically for utilizing pneumatic sensor, obtains the pneumatic sensor institute in place Put the directioin parameter and intensive parameter for flowing through air-flow, the directioin parameter and intensive parameter composition target airflow parameter.

Said apparatus, it is preferred that the parameter acquiring unit includes：

Flow parameter obtains subelement, for utilizing the first sensing unit, obtains the electronic equipment position and flows through The directioin parameter and intensive parameter of air-flow；

Audio parameter obtains subelement, the sound for obtaining the electronic equipment position using the second sensing unit Parameter；

Target component determination subelement, for determining the directioin parameter and the intensive parameter according to the audio parameter Constitute target airflow parameter.

Said apparatus, it is preferred that the corresponding relation is：Pair of the corresponding signal level value of flow parameter and operational order It should be related to；

Wherein, the command determination unit includes：

Parameter analysis of electrochemical subelement, for parsing the target airflow parameter, is generated corresponding with the target airflow parameter Electric signal, the electric signal include at least one signal level value；

Order determination subelement, for according to the correspondence set, it is determined that corresponding with the signal level value Object run order.

Said apparatus, preferably：

The parameter acquiring unit, specifically for obtaining N number of period of the day from 11 p.m. to 1 a.m in target time section using first sensing unit Between the section electronic equipment position target airflow parameter, N is integer more than or equal to 1；

Wherein, the command response unit, specifically for responding N number of object run order successively.

Said apparatus, preferably：

The command response unit, specifically in the target time section, respond successively respectively with N number of period of the day from 11 p.m. to 1 a.m Between the corresponding object run order of each sub- period obtains in section target airflow parameter.

Said apparatus, preferably：

The command response unit, it is lasting to respond and N number of sub- period specifically in the target time section In the corresponding object run order of the target airflow parameter that obtains of first sub- period.

A kind of data processing method and device provided from such scheme, the application, applied to electronic equipment, passes through The target airflow parameter of the electronic equipment position is obtained using the first sensing unit, and obtains default set of correspondences Close, according to flow parameter in the correspondence set and the corresponding relation of operational order, it is determined that with the target airflow parameter phase Corresponding object run order, so as to respond the object run order, realizes directly can not be controlled manually in user afterwards The operation needed for being carried out to electronic equipment is realized during electronic equipment processed, it is to avoid in the prior art can not to user voice signal with Other voice signals, which are identified, causes operational error to influence the situation for experience, and electronic equipment is spoken by sensing user Or the air-flow produced when blowing afloat, corresponding operational order is determined according to the parameter of air-flow, gas flow optimized electronic equipment is realized afterwards Purpose.

Brief description of the drawings

In order to illustrate more clearly of the technical scheme in the embodiment of the present application, make required in being described below to embodiment Accompanying drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the present application, for For those of ordinary skill in the art, without having to pay creative labor, it can also be obtained according to these accompanying drawings His accompanying drawing.

A kind of flow chart for data processing method embodiment one that Fig. 1 provides for the application；

Fig. 2 is the result schematic diagram of electronic equipment and the first sensing unit in the embodiment of the present application one；

Fig. 3 is the application exemplary plot of the embodiment of the present application one；

Fig. 4 is the another application exemplary plot of the embodiment of the present application one；

Fig. 5 is the another application exemplary plot of the embodiment of the present application one；

Fig. 6 is the another application exemplary plot of the embodiment of the present application one；

A kind of partial process view for data processing method embodiment two that Fig. 7 provides for the application；

A kind of partial process view for data processing method embodiment three that Fig. 8 provides for the application；

A kind of flow chart for data processing method example IV that Fig. 9 provides for the application；

A kind of structural representation for data processing equipment embodiment five that Figure 10 provides for the application；

A kind of part-structure schematic diagram for data processing equipment embodiment six that Figure 11 provides for the application；

A kind of part-structure schematic diagram for data processing equipment embodiment seven that Figure 12 provides for the application.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, the technical scheme in the embodiment of the present application is carried out clear, complete Site preparation is described, it is clear that described embodiment is only some embodiments of the present application, rather than whole embodiments.It is based on Embodiment in the application, it is every other that those of ordinary skill in the art are obtained under the premise of creative work is not made Embodiment, belongs to the scope of the application protection.

With reference to Fig. 1, a kind of flow chart of the data processing method embodiment one provided it illustrates the application, methods described Applied to electronic equipment, methods described may comprise steps of：

Step 101：The target airflow parameter of the electronic equipment position is obtained using the first sensing unit.

It should be noted that first sensing unit is arranged at the edge of the electronic equipment, as shown in Figure 2.And institute State the corresponding target airflow of target airflow parameter described in step 101 to refer to, above the glass protection screen of the electronic equipment The air-flow flowed through.The air-flow can speak the air-flow of generation for user, and can also blow the air-flow produced, such as Fig. 3 for user It is shown.

It is preferred that, first sensing unit includes pneumatic sensor.And the step 101 can have in the following manner Body is realized：

Using pneumatic sensor, directioin parameter and intensity ginseng that the pneumatic sensor position flows through air-flow are obtained Number, the directioin parameter and intensive parameter composition target airflow parameter.

Wherein, the pneumatic sensor is arranged on the electronic equipment, as shown in Fig. 2 and the directioin parameter refers to Direction vector value of air-flow when by the electronic equipment position.In level in electronic equipment display screen curtain Plane in, the directioin parameter include up, down, left and right four direction vector value, foregoing four direction vector value is with institute State the receiver position of electronic equipment and be defined what is be defined for upper reference axis, as shown in Figure 4.And the intensive parameter refers to institute State the pressure vector that air-flow is produced when the glass protection screen with the electronic equipment is in contact to the glass protection screen Value, as shown in Figure 5.

Step 102：Obtain default correspondence set, the correspondence set include at least one flow parameter with The corresponding relation of operational order.

It should be noted that the step 102 can simultaneously be performed with the step 101, can also be in the step 101 Perform and performed after completing.The set of correspondences is combined into be configured in advance, and it includes multiple corresponding relations, and each correspondence is closed System includes a flow parameter and an operational order is corresponding, and such as one flow parameter is with clicking on the operation chosen or slided Order is corresponding.

Step 103：According to the correspondence set, it is determined that the object run life corresponding with the target airflow parameter Order.

Wherein, the step 103 can specifically be realized by following steps：

In being corresponding set of relationship, the target corresponding relation corresponding with the target airflow parameter is searched；

It is object run order to determine the operational order in the target corresponding relation.

Step 104：Respond the object run order.

It should be noted that the step 104 refers to, trigger the electronic equipment and performed according to the object run order Corresponding operation.

As shown in fig. 6, the electronic equipment of user receive after incoming information, it is necessary to user slide or click on connect or Corresponding button is hung up, now, user need to only blow to the electronic equipment position, and the application speaks by obtaining user Or the flow parameter for generation air-flow of blowing, now, the described air-flow from left to right, and obliquely, thereby determines that user to described The operation of electronic equipment is intended to, and determines corresponding object run order, connects this call.

A kind of data processing method embodiment one provided from such scheme, the application, applied to electronic equipment, leads to The target airflow parameter that the electronic equipment position is obtained using the first sensing unit is crossed, and obtains default corresponding relation Set, according to flow parameter in the correspondence set and the corresponding relation of operational order, it is determined that with the target airflow parameter Corresponding object run order, so as to respond the object run order, realizing can not directly be carried out manually afterwards in user The operation needed for being carried out to electronic equipment is realized during control electronics, it is to avoid in the prior art can not be to user voice signal Being identified with other voice signals causes operational error to influence the situation for experience, and electronic equipment is said by sensing user The air-flow talked about or produced when blowing afloat, corresponding operational order is determined according to the parameter of air-flow, realizes that gas flow optimized electronics is set afterwards Standby purpose.

With reference to Fig. 7, a kind of partial process view of the data processing method embodiment two provided it illustrates the application, its In, the step 101 can be implemented by following steps：

Step 701：Using the first sensing unit, obtain the electronic equipment position flow through air-flow directioin parameter and Intensive parameter.

It is preferred that, first sensing unit includes pneumatic sensor, and the step 701 can be specific in the following manner Realize：

Using pneumatic sensor, directioin parameter and intensity ginseng that the pneumatic sensor position flows through air-flow are obtained Number.

Wherein, the pneumatic sensor is arranged on the electronic equipment, and air-flow is obtained by the pneumatic sensor Directioin parameter and intensive parameter.

Step 702：The audio parameter of the electronic equipment position is obtained using the second sensing unit.

It is preferred that, second sensing unit includes such as microphone voice collection device.And the step 702 with it is described Step 701 can be performed simultaneously, i.e., obtain the directioin parameter, the intensive parameter and the audio parameter simultaneously, can be with Perform in a predefined order, need to only ensure to get above three parameter before the step 703 is performed.

Step 703：According to the audio parameter, the directioin parameter and intensive parameter composition target airflow ginseng are determined Number.

It is preferred that, the step 703 can be implemented in the following manner：

Parse the volume value in the audio parameter；

Judge whether the volume value meets default volume limit value rule, if it is, determining the directioin parameter and institute State intensive parameter composition target airflow parameter.

For example, user is when speaking or exhaling, certain sound can be sent, and the sound produced during natural wind flowing is extremely Small, the sound that the user nearer apart from it exhales can be collected by being arranged at the voice collection device of the electronic equipment, it is impossible to Accurate acquisition to natural wind flow when sound, thus, by meeting the sound in the volume value for identifying the audio parameter Limit value rule is measured, speaks or exhales it is determined that the air-flow currently flowed through is user（Blow）The air-flow of generation, now to the air-flow pair The target airflow parameter answered is identified, it is determined that and responding corresponding object run order.

Thus, in real life, sound of the natural wind when flowing through the electronic equipment is small, thus, and the application exists While first sensing unit obtains flow parameter, audio parameter is obtained using second sensing unit, passes through identification The size discrimination of volume in audio parameter goes out the attribute of target airflow, is that user produces, or natural wind, shields afterwards outer Boundary's natural wind is to current-controlled interference in electronic equipment.

It is preferred that, the step 703 can also be implemented in the following manner：

Recognize the sensual pleasure type in the audio parameter；

Judge whether the sensual pleasure type meets default legal sound producing body mark, if it is, determining the direction ginseng Number and the intensive parameter constitute target airflow parameter.

For example, user is when speaking or exhaling, the sound with mankind's sounding characteristic can be sent, and is produced during natural wind flowing Raw sound is extremely small, and its sensual pleasure is different from mankind's sounding（Including mechanical sound）, it is arranged at the electronic equipment Voice collection device can collect the sound that the user nearer apart from it exhales, and collect sound when natural wind flows, by This, by when sensual pleasure type in identifying the audio parameter is natural wind sound or mechanical sound, shielding current air-flow The influence produced to the electronic equipment, is not parsed and is responded to current air-flow；Opposite, if identifying the sound When sensual pleasure type in parameter is human sound, speaks or exhale it is determined that the air-flow currently flowed through is user（Blow）The gas of generation Stream, now the corresponding target airflow parameter of current air-flow is identified, it is determined that and responding corresponding object run order.

Thus, in real life, the tone color of sound and mechanical sound of the natural wind when flowing through the electronic equipment Mankind's sounding is different from, thus, the application utilizes described second while first sensing unit obtains flow parameter Sensing unit obtains audio parameter, is user by recognizing that the sensual pleasure class area in audio parameter separates the attribute of target airflow Produce, or natural wind or other air-flow types, extraneous such as natural wind air-flow is shielded afterwards to air-flow control in electronic equipment The interference of system.

From such scheme, the embodiment of the present application is by obtaining audio parameter, to the electronic equipment position Air-flow is differentiated, it is to avoid the maloperation caused by external interferences such as natural winds.

It is preferred that, in above-described embodiment, the corresponding relation in the correspondence set is：The corresponding signal of flow parameter The corresponding relation of level value and operational order, with reference to Fig. 8, it illustrates a kind of data processing method embodiment that the application is provided Three partial process view, wherein, the step 103 can specifically be realized by following steps：

Step 801：The target airflow parameter is parsed, the electric signal corresponding with the target airflow parameter is generated；

Wherein, the electric signal includes at least one signal level value.

It should be noted that the target airflow parameter one electric signal of correspondence, the electric signal can include one or Multiple signal level values.The signal level value formation data signal.

Step 802：According to the correspondence set, it is determined that the object run life corresponding with the signal level value Order.

Wherein, in the correspondence set, each corresponding relation is the corresponding signal level value of flow parameter and operation The corresponding relation of order, thus, is resolved to after the corresponding electric signal of the target airflow parameter, really in the step 801 The fixed object run order corresponding with signal level value in the electric signal.

With reference to Fig. 9, a kind of flow chart of the data processing method example IV provided it illustrates the application, it is preferred that The step 101 can specifically be accomplished by the following way：

The target of electronic equipment position described in N number of sub- period in target time section is obtained using the first sensing unit Flow parameter, N is the integer more than or equal to 1.

It should be noted that the target time section can be understood as：First sensing unit is touching the electricity During the air-flow that sub- equipment position is passed through, untill the air-flow disappears between period.And the target time section It is interior including N number of sub- period, the mesh of the electronic equipment position is being obtained using the first sensing unit in the step 101 When marking flow parameter, the electronic equipment position in N number of sub- period is as obtained in the target time section Target airflow parameter.

Now, the step 104 is specially：

N number of object run order is responded successively.

Wherein, the target airflow parameter described in the step 101 is corresponding air-flow ginseng in each sub- period Number, now, when the corresponding object run order of the target airflow parameter is determined in the step 103, the object run Order be respectively flow parameter corresponding with each sub- period it is corresponding, as N number of object run order, thus, In the step 104, N number of object run order is responded successively.It should be noted that N number of object run order It can be identical operational order, can also be different operational orders.

It is preferred that, N number of object run order is responded in the step 104 successively, can specifically include following first Implementation：

In the target time section, respond what is obtained respectively with each sub- period in N number of sub- period successively The corresponding object run order of target airflow parameter.

It should be noted that in above-mentioned first implementation, its respective target is being determined to each sub- period During operational order, it is first determined whether the air-flow in each sub- period meets default primary condition, i.e., its is respective strong Spend whether parameter is higher than pre-set limit, if it is, determining its correspondence according to the target airflow parameter in each sub- period Object run order.

Wherein, in above-mentioned first implementation, target airflow parameter one target of correspondence of each sub- period Operational order, i.e., in the step 103, according to the correspondence set, determine and in each sub- period respectively The corresponding object run order of the target airflow parameter of acquisition, thus, in the step 104, in the target time section It is interior, the corresponding object run order of target airflow parameter obtained in each sub- period is responded successively, is realized and is passed through gas Cleanliness control electronics.

For example, user exhales to electronic equipment position produces air-flow, the direction of the air-flow and each son of intensity Possibility is identical in period may also be identical, thus, the target airflow parameter in each sub- period is parsed, really Fixed and its each self-corresponding object run order, and each object run order is responded, realize pass through gas afterwards Cleanliness control electronics.

It is preferred that, N number of object run order is responded in the step 104 successively, can specifically include following second Implementation：

In the target time section, the mesh that lasting response is obtained with first in N number of sub- period sub- period Mark the corresponding object run order of flow parameter.

It should be noted that in above-mentioned second implementation, determining that its is each self-corresponding to each sub- period During object run order, it is first determined whether the air-flow in each sub- period meets default primary condition, i.e., its is each Intensive parameter whether be higher than pre-set limit, if it is, the only target gas to first sub- period in N number of sub- period Stream parameter is determined its corresponding object run order.

Wherein, in above-mentioned second implementation, in the target time section, each object run order is identical, It is the corresponding object run order of target airflow parameter that first sub- period obtains in the target time section, i.e., in institute State in step 103, according to the correspondence set, need to only can determine in the target time section in first sub- period The corresponding object run order of target airflow parameter of acquisition, i.e., only need to determine in the target time section second to last The individual sub- period can get target airflow parameter, without to obtaining in the sub- period in addition to first sub- period Target airflow parameter is determined object run order, therefore, in the step 104, only need in the target time section, The lasting response object run order corresponding with the target airflow parameter obtained in first sub- period, is realized Pass through the purpose of air-flow nonlinear Control electronic equipment.

It should be noted that in above-mentioned second implementation, the target is persistently responded in the target time section Operational order refers to：Add up the response object run order in the target time section.For example, example as shown in Figure 6 In, after the operational order slided to the right in the first sub- period is responded, the operational order slided to the right is persistently responded, i.e., Sliding block continues to slide to the right, until the intensive parameter that the target time section terminates air-flow is less than the pre-set limit.For another example, institute Player volume of the object run order for increase current electronic device is stated, the increase volume in first sub- period is being responded Operational order after, the operational order of lasting response increase volume, i.e., the player volume of described electronic equipment is continued upward Improve, until the operational order or the volume of the electronic equipment player that are responsive in last sub- period reach maximum Value.

Can be so that the application is saved to except the target airflow parameter obtained in first sub- period by above-mentioned implementation Resolving, in the case where ensureing to reduce maloperation, improve the response performance of the electronic equipment.

For example, user exhales to electronic equipment position produces air-flow, the direction of the air-flow and each son of intensity Possibility is identical in period may also be identical, thus, and the intensity in the target airflow parameter in each sub- period is joined Number is parsed, it is determined that when being above pre-set limit, it is determined that corresponding with the target airflow parameter in first sub- period Object run order, and in the target time section, persistently the object run order is responded, realize pass through gas afterwards Flow nonlinear Control electronic equipment.

With reference to Figure 10, a kind of structural representation of the data processing equipment embodiment five provided it illustrates the application, institute Stating device includes：

Parameter acquiring unit 1001, the target gas for obtaining the electronic equipment position using the first sensing unit Flow parameter.

It is preferred that, first sensing unit includes pneumatic sensor, wherein, the parameter acquiring unit 1001, specifically For：

Using pneumatic sensor, directioin parameter and intensity ginseng that the pneumatic sensor position flows through air-flow are obtained Number, the directioin parameter and intensive parameter composition target airflow parameter.

Wherein, the pneumatic sensor is arranged on the electronic equipment, as shown in Fig. 2 and the directioin parameter refers to Direction vector value of air-flow when by the electronic equipment position.In level in electronic equipment display screen curtain Plane in, the directioin parameter include up, down, left and right four direction vector value, foregoing four direction vector value is with institute State the receiver position of electronic equipment and be defined what is be defined for upper reference axis, as shown in Figure 4.And the intensive parameter refers to institute State the pressure vector that air-flow is produced when the glass protection screen with the electronic equipment is in contact to the glass protection screen Value, as shown in Figure 5.

Gather acquiring unit 1002, for obtaining default correspondence set, the correspondence set is included at least The corresponding relation of one flow parameter and operational order.

It is configured in advance it should be noted that the set of correspondences is combined into, it includes multiple corresponding relations, it is each right It should be related to corresponding including a flow parameter and an operational order, such as one flow parameter is with clicking on what is chosen or slide Operational order is corresponding.

Command determination unit 1003, for according to the correspondence set, it is determined that relative with the target airflow parameter The object run order answered.

Wherein, the command determination unit 1003 can specifically be accomplished by the following way：

In being corresponding set of relationship, the target corresponding relation corresponding with the target airflow parameter is searched；

It is object run order to determine the operational order in the target corresponding relation.

Command response unit 1004, for responding the object run order.

It should be noted that the command response unit 1004 refers to, trigger the electronic equipment and grasped according to the target Make order and perform corresponding operation.

As shown in fig. 6, the electronic equipment of user receive after incoming information, it is necessary to user slide or click on connect or Corresponding button is hung up, now, user need to only blow to the electronic equipment position, and the application speaks by obtaining user Or the flow parameter for the air-flow produced of blowing, now, the described air-flow from left to right, and obliquely, thereby determines that user to institute The operation for stating electronic equipment is intended to, and determines corresponding object run order, connects this call.

A kind of data processing equipment embodiment five provided from such scheme, the application, applied to electronic equipment, leads to The target airflow parameter that the electronic equipment position is obtained using the first sensing unit is crossed, and obtains default corresponding relation Set, according to flow parameter in the correspondence set and the corresponding relation of operational order, it is determined that with the target airflow parameter Corresponding object run order, so as to respond the object run order, realizing can not directly be carried out manually afterwards in user The operation needed for being carried out to electronic equipment is realized during control electronics, it is to avoid in the prior art can not be to user voice signal Being identified with other voice signals causes operational error to influence the situation for experience, and electronic equipment is said by sensing user The air-flow talked about or produced when blowing afloat, corresponding operational order is determined according to the parameter of air-flow, realizes that gas flow optimized electronics is set afterwards Standby purpose.

With reference to Figure 11, a kind of part-structure signal of the data processing equipment embodiment six provided it illustrates the application Figure, wherein, the parameter acquiring unit 1001 includes：

Flow parameter obtains subelement 1011, for utilizing the first sensing unit, obtains the electronic equipment position Flow through the directioin parameter and intensive parameter of air-flow.

It is preferred that, first sensing unit includes pneumatic sensor, and the flow parameter obtains subelement 1011 can be with Implement in the following manner：

Using pneumatic sensor, directioin parameter and intensity ginseng that the pneumatic sensor position flows through air-flow are obtained Number.

Wherein, the pneumatic sensor is arranged on the electronic equipment, and air-flow is obtained by the pneumatic sensor Directioin parameter and intensive parameter.

Audio parameter obtains subelement 1012, for obtaining the electronic equipment position using the second sensing unit Audio parameter.

It is preferred that, second sensing unit includes such as microphone voice collection device.And the audio parameter is obtained Subelement 1012 obtains subelement 1011 with the flow parameter and can performed simultaneously, i.e., obtain the directioin parameter, institute simultaneously Intensive parameter and the audio parameter are stated, can also be performed in a predefined order, need to only ensure to determine son in the target component Unit 1013 gets above three parameter before performing.

Target component determination subelement 1013, for determining the directioin parameter and the intensity according to the audio parameter Parameter constitutes target airflow parameter.

It is preferred that, the target component determination subelement 1013 can be implemented in the following manner：

Parse the volume value in the audio parameter；

Judge whether the volume value meets default volume limit value rule, if it is, determining the directioin parameter and institute State intensive parameter composition target airflow parameter.

For example, user is when speaking or exhaling, certain sound can be sent, and the sound produced during natural wind flowing is extremely Small, the sound that the user nearer apart from it exhales can be collected by being arranged at the voice collection device of the electronic equipment, it is impossible to Accurate acquisition to natural wind flow when sound, thus, by meeting the sound in the volume value for identifying the audio parameter Limit value rule is measured, speaks or exhales it is determined that the air-flow currently flowed through is user（Blow）The air-flow of generation, now to the air-flow pair The target airflow parameter answered is identified, it is determined that and responding corresponding object run order.

Thus, in real life, sound of the natural wind when flowing through the electronic equipment is small, thus, and the application exists While first sensing unit obtains flow parameter, audio parameter is obtained using second sensing unit, passes through identification The size discrimination of volume in audio parameter goes out the attribute of target airflow, is that user produces, or natural wind, shields afterwards outer Boundary's natural wind is to current-controlled interference in electronic equipment.

It is preferred that, the target component determination subelement 1013 can be implemented in the following manner：

Recognize the sensual pleasure type in the audio parameter；

Judge whether the sensual pleasure type meets default legal sound producing body mark, if it is, determining the direction ginseng Number and the intensive parameter constitute target airflow parameter.

For example, user is when speaking or exhaling, the sound with mankind's sounding characteristic can be sent, and is produced during natural wind flowing Raw sound is extremely small, and its sensual pleasure is different from mankind's sounding（Including mechanical sound）, it is arranged at the electronic equipment Voice collection device can collect the sound that the user nearer apart from it exhales, and collect sound when natural wind flows, by This, by when sensual pleasure type in identifying the audio parameter is natural wind sound or mechanical sound, shielding current air-flow The influence produced to the electronic equipment, is not parsed and is responded to current air-flow；Opposite, if identifying the sound When sensual pleasure type in parameter is human sound, speaks or exhale it is determined that the air-flow currently flowed through is user（Blow）The gas of generation Stream, now the corresponding target airflow parameter of current air-flow is identified, it is determined that and responding corresponding object run order.

Thus, in real life, the tone color of sound and mechanical sound of the natural wind when flowing through the electronic equipment Mankind's sounding is different from, thus, the application utilizes described second while first sensing unit obtains flow parameter Sensing unit obtains audio parameter, is user by recognizing that the sensual pleasure class area in audio parameter separates the attribute of target airflow Produce, or natural wind or other air-flow types, extraneous such as natural wind air-flow is shielded afterwards to air-flow control in electronic equipment The interference of system.

From such scheme, the embodiment of the present application is by obtaining audio parameter, to the electronic equipment position Air-flow is differentiated, it is to avoid the maloperation caused by external interferences such as natural winds.

It is preferred that, in above-described embodiment, the corresponding relation in the correspondence set is：The corresponding signal of flow parameter The corresponding relation of level value and operational order.With reference to Figure 12, it illustrates a kind of data processing equipment implementation that the application is provided The part-structure schematic diagram of example seven, wherein, the command determination unit 1003 includes：

Parameter analysis of electrochemical subelement 1031, for parsing the target airflow parameter, generation and the target airflow parameter phase Corresponding electric signal, the electric signal includes at least one signal level value.

It should be noted that the target airflow parameter one electric signal of correspondence, the electric signal can include one or Multiple signal level values.The signal level value formation data signal.

Order determination subelement 1032, for according to the correspondence set, it is determined that relative with the signal level value The object run order answered.

Wherein, in the correspondence set, each corresponding relation is the corresponding signal level value of flow parameter and operation The corresponding relation of order, thus, is resolved to the corresponding electricity of the target airflow parameter in the Parameter analysis of electrochemical subelement 1031 After signal, determine that the object run corresponding with signal level value in the electric signal is ordered by the order determination subelement 1032 Order.

It is preferred that, in each above-mentioned embodiment, the parameter acquiring unit 1001 specifically can be real in the following manner Its existing function：

Electronic equipment position described in N number of sub- period in target time section is obtained using first sensing unit Target airflow parameter, N is the integer more than or equal to 1.

It should be noted that the target time section can be understood as：First sensing unit is touching the electricity During the air-flow that sub- equipment position is passed through, untill the air-flow disappears, between period.And the target time section It is interior including N number of sub- period, where the parameter acquiring unit 1001 obtains the electronic equipment using the first sensing unit During the target airflow parameter of position, the electronic equipment institute in N number of sub- period is as obtained in the target time section Target airflow parameter in position.

Now, the command response unit 1004 is realized especially by the following manner：

N number of object run order is responded successively.

Wherein, in the parameter acquiring unit 1001, the target airflow parameter is right in each sub- period The flow parameter answered, now, determines the corresponding object run of the target airflow parameter in the command determination unit 1003 During order, the object run order be respectively flow parameter corresponding with each sub- period it is corresponding, it is as N number of Object run order, thus, in the command response unit 1004, responds N number of object run order successively.Need Bright, N number of object run order can be identical operational order, can also be different operational orders.

It is preferred that, the command response unit 1004 when responding N number of object run order successively, can by with Lower first implementation is realized：

In the target time section, respond what is obtained respectively with each sub- period in N number of sub- period successively The corresponding object run order of target airflow parameter.

It should be noted that in above-mentioned first implementation, its respective target is being determined to each sub- period During operational order, it is first determined whether the air-flow in each sub- period meets default primary condition, i.e., its is respective strong Spend whether parameter is higher than pre-set limit, if it is, determining its correspondence according to the target airflow parameter in each sub- period Object run order.

Wherein, in above-mentioned first implementation, target airflow parameter one target of correspondence of each sub- period Operational order, i.e., in the command determination unit 1003, according to the correspondence set, determine and each son respectively The corresponding object run order of the target airflow parameter of acquisition in period, thus, in the command response unit 1004, In the target time section, the corresponding object run of target airflow parameter obtained in each sub- period is responded successively Order, realizes and passes through the linear control electronics of air-flow.

For example, user exhales to electronic equipment position produces air-flow, the direction of the air-flow and each son of intensity Possibility is identical in period may also be identical, thus, the target airflow parameter in each sub- period is parsed, really Fixed and its each self-corresponding object run order, and each object run order is responded, realize pass through gas afterwards Cleanliness control electronics.

It is preferred that, the command response unit 1004 can also pass through when responding N number of object run order successively The second implementation is realized below：

In the target time section, the mesh that lasting response is obtained with first in N number of sub- period sub- period Mark the corresponding object run order of flow parameter.

It should be noted that in above-mentioned second implementation, determining that its is each self-corresponding to each sub- period During object run order, it is first determined whether the air-flow in each sub- period meets default primary condition, i.e., its is each Intensive parameter whether be higher than pre-set limit, if it is, the only target gas to first sub- period in N number of sub- period Stream parameter is determined its corresponding object run order.

Wherein, in above-mentioned second implementation, in the target time section, each object run order is identical, It is the corresponding object run order of target airflow parameter that first sub- period obtains in the target time section, i.e., in institute State in command determination unit 1003, according to the correspondence set, only can need to determine in the target time section first The corresponding object run order of target airflow parameter obtained in the sub- period, i.e., need to only determine second in the target time section It is individual to get target airflow parameter to last sub- period, without to the sub- time in addition to first sub- period The target airflow parameter obtained in section is determined object run order, therefore, in the command response unit 1004, only needs In the target time section, the lasting response mesh corresponding with the target airflow parameter obtained in first sub- period Operational order is marked, the purpose by air-flow nonlinear Control electronic equipment is realized.

It should be noted that in above-mentioned second implementation, the target is persistently responded in the target time section Operational order refers to：Add up the response object run order in the target time section.For example, example as shown in Figure 6 In, after the operational order slided to the right in the first sub- period is responded, the operational order slided to the right is persistently responded, i.e., Sliding block continues to slide to the right, until the intensive parameter that the target time section terminates air-flow is less than the pre-set limit.For another example, institute Player volume of the object run order for increase current electronic device is stated, the increase volume in first sub- period is being responded Operational order after, the operational order of lasting response increase volume, i.e., the player volume of described electronic equipment is continued upward Improve, until the operational order or the volume of the electronic equipment player that are responsive in last sub- period reach maximum Value.

Can be so that the application is saved to except the target airflow parameter obtained in first sub- period by above-mentioned implementation Resolving, in the case where ensureing to reduce maloperation, improve the response performance of the electronic equipment.

For example, user exhales to electronic equipment position produces air-flow, the direction of the air-flow and each son of intensity Possibility is identical in period may also be identical, thus, and the intensity in the target airflow parameter in each sub- period is joined Number is parsed, it is determined that when being above pre-set limit, it is determined that corresponding with the target airflow parameter in first sub- period Object run order, and in the target time section, persistently the object run order is responded, realize pass through gas afterwards Flow nonlinear Control electronic equipment.

It should be noted that each embodiment in this specification is described by the way of progressive, each embodiment weight Point explanation be all between difference with other embodiment, each embodiment identical similar part mutually referring to.

Finally, in addition it is also necessary to explanation, herein, such as first and second or the like relational terms be used merely to by One entity or operation make a distinction with another entity or operation, and not necessarily require or imply these entities or operation Between there is any this actual relation or order.Moreover, term " comprising ", "comprising" or its any other variant meaning Covering including for nonexcludability, so that process, method, article or equipment including a series of key elements not only include that A little key elements, but also other key elements including being not expressly set out, or also include be this process, method, article or The intrinsic key element of equipment.In the absence of more restrictions, the key element limited by sentence "including a ...", is not arranged Except also there is other identical element in the process including the key element, method, article or equipment.

A kind of data processing method provided by the present invention and device are described in detail above, it is used herein Specific case is set forth to the principle and embodiment of the present invention, and the explanation of above example is only intended to help and understands this The method and its core concept of invention；Simultaneously for those of ordinary skill in the art, according to the thought of the present invention, specific It will change in embodiment and application, in summary, this specification content should not be construed as to the application's Limitation.

Claims (10)

1. a kind of data processing method, it is characterised in that applied to electronic equipment, methods described includes：

The target airflow parameter of the electronic equipment position is obtained using the first sensing unit；

Default correspondence set is obtained, the correspondence set includes at least one flow parameter and pair of operational order It should be related to；

According to the correspondence set, it is determined that the object run order corresponding with the target airflow parameter；

Respond the object run order；

The target airflow parameter that the electronic equipment position is obtained using the first sensing unit, including：

Using the first sensing unit, directioin parameter and intensive parameter that the electronic equipment position flows through air-flow are obtained；

And the audio parameter of the electronic equipment position is obtained using the second sensing unit；

According to the audio parameter, the directioin parameter and intensive parameter composition target airflow parameter are determined；

First sensing unit includes pneumatic sensor, described to obtain the electronic equipment institute in place using the first sensing unit The target airflow parameter put, including：

Using pneumatic sensor, directioin parameter and intensive parameter that the pneumatic sensor position flows through air-flow, institute are obtained State directioin parameter and intensive parameter composition target airflow parameter.

2. according to the method described in claim 1, it is characterised in that the corresponding relation is：The corresponding signal electricity of flow parameter The corresponding relation of level values and operational order；

Wherein, it is described according to the correspondence set, it is determined that the object run order corresponding with the target airflow parameter, Including：

The target airflow parameter is parsed, the electric signal corresponding with the target airflow parameter is generated, the electric signal includes At least one signal level value；

According to the correspondence set, it is determined that the object run order corresponding with the signal level value.

3. according to the method described in claim 1, it is characterised in that described to obtain the electronic equipment using the first sensing unit The target airflow parameter of position, including：

The target airflow of electronic equipment position described in N number of sub- period in target time section is obtained using the first sensing unit Parameter, N is the integer more than or equal to 1；

Wherein, the response object run order includes：

N number of object run order is responded successively.

4. method according to claim 3, it is characterised in that described to respond N number of object run order successively and include：

In the target time section, the target respectively with each sub- period acquisition in N number of sub- period is responded successively The corresponding object run order of flow parameter.

5. according to the method described in claim 1, it is characterised in that described to obtain the electronic equipment using the first sensing unit The target airflow parameter of position, including：

The target airflow of electronic equipment position described in N number of sub- period in target time section is obtained using the first sensing unit Parameter, N is the integer more than or equal to 1；

Wherein, the response object run order includes：

In the target time section, the target gas that lasting response is obtained with first in N number of sub- period sub- period Flow the corresponding object run order of parameter.

6. a kind of data processing equipment, it is characterised in that applied to electronic equipment, described device includes：

Parameter acquiring unit, the target airflow parameter for obtaining the electronic equipment position using the first sensing unit；

Gather acquiring unit, for obtaining default correspondence set, the correspondence set includes at least one air-flow The corresponding relation of parameter and operational order；

Command determination unit, for according to the correspondence set, it is determined that the target corresponding with the target airflow parameter Operational order；

Command response unit, for responding the object run order；

The parameter acquiring unit includes：

Flow parameter obtains subelement, for utilizing the first sensing unit, obtains the electronic equipment position and flows through air-flow Directioin parameter and intensive parameter；

Audio parameter obtains subelement, the sound ginseng for obtaining the electronic equipment position using the second sensing unit Number；

Target component determination subelement, for determining the directioin parameter and intensive parameter composition according to the audio parameter Target airflow parameter；

First sensing unit includes pneumatic sensor；

Wherein, the parameter acquiring unit, specifically for utilizing pneumatic sensor, obtains the pneumatic sensor position stream Directioin parameter and intensive parameter through air-flow, the directioin parameter and intensive parameter composition target airflow parameter.

7. device according to claim 6, it is characterised in that the corresponding relation is：The corresponding signal electricity of flow parameter The corresponding relation of level values and operational order；

Wherein, the command determination unit includes：

Parameter analysis of electrochemical subelement, for parsing the target airflow parameter, generates the electricity corresponding with the target airflow parameter Signal, the electric signal includes at least one signal level value；

Order determination subelement, for according to the correspondence set, it is determined that the target corresponding with the signal level value Operational order.

8. device according to claim 6, it is characterised in that：

The parameter acquiring unit, specifically for obtaining N number of sub- period in target time section using first sensing unit The target airflow parameter of the electronic equipment position, N is the integer more than or equal to 1；

Wherein, the command response unit, specifically for responding N number of object run order successively.

9. device according to claim 8, it is characterised in that：

The command response unit, specifically in the target time section, respond successively respectively with N number of sub- period In the corresponding object run order of the target airflow parameter that obtains of each sub- period.

10. device according to claim 6, it is characterised in that：

The parameter acquiring unit, specifically for obtaining N number of sub- period in target time section using first sensing unit The target airflow parameter of the electronic equipment position, N is the integer more than or equal to 1；

Wherein, the command response unit, it is lasting to respond and N number of sub- time specifically in the target time section The corresponding object run order of the target airflow parameter of first sub- period acquisition in section.