CN105528057A - Control response method and electronic apparatus - Google Patents

Abstract

The invention discloses a control response method and an electronic apparatus, and the method is used for the electronic apparatus. The electronic apparatus comprises a first input device and a body device. The first input device is movably connected to the body device through a connecting structure. When an external force is applied on the first input device, the first input device can be forced to move relative to the body device. The method comprises following steps: acquiring motion parameters of the first input device when the first input device moves relative to the body device; determining the first relative motion direction of the first input device when the first input device moves relative to the body device according to the motion parameters, wherein the first relative motion direction is used for indicating the first input direction of operation input which is formed by the relative motion, and an operator controls the first input device to move relative to the body device according to the first input direction; determining a start command according to the first relative motion direction; and responding to the start command, wherein at least a voice acquisition device of the electronic apparatus is in an enabled state, so that voice input of a user of the electronic apparatus can be acquired.

Description

Control response method and electronic equipment

Technical field

The present invention relates to the field of information processing, more particularly, relate to the field of the control response of electronic equipment.

Background technology

In recent years, along with the fast development of computing machine, Networks and Communications technology, the development of various intelligent electric subset (e.g., mobile phone, panel computer or other Wearable etc.) is maked rapid progress.Meanwhile, user is also constantly risen for the experience demand of electronic equipment.Replace original physical button formula to input, present electronic equipment carries out man-machine interaction mainly through the gesture input of operating body to touch-screen, thus user in use feels more unsophisticated.

But existing electronic equipment Problems existing is: owing to depending on various application more, therefore likely occur that software reaction causes the situation of operating delay not soon.

Summary of the invention

In view of above situation, expect to provide and can be convenient to user operation and control response method and electronic equipment that response can be made fast to user operation.

According to an aspect of the present invention, provide a kind of control response method, described method is applied in electronic equipment, described electronic equipment comprises the first input media and body apparatus, described first input media is flexibly connected with described body apparatus by syndeton, and the relatively described body apparatus of described first input media can be forced relative motion is produced when applying external force for described first input media, described method comprises: obtain described first input media carries out relative motion kinematic parameter relative to described body apparatus; Determine that the relatively described body apparatus of described first input media produces the first direction of relative movement of relative motion according to described kinematic parameter; Described first direction of relative movement controls the first input direction of the operation input that described first input media is formed relative to described body apparatus relative motion for characterizing described operating body; Based on described first direction of relative movement determination enabled instruction; Respond described enabled instruction, the voice acquisition device at least controlling described electronic equipment is in enabled state, the phonetic entry carried out with the user gathering described electronic equipment.

Preferably, control response method according to the embodiment of the present invention also comprises: when described voice acquisition device is in described enabled state, determine whether the relatively described body apparatus of described first input media maintains the first presumptive area on described first direction of relative movement according to described kinematic parameter, characterize the maintenance state of the described operation input of described operating body when described first input media maintains described first presumptive area; When determining that according to described kinematic parameter the relatively described electronic equipment of described first input media maintains the first presumptive area on described first direction of relative movement, controlling described voice acquisition device and continuing to maintain described enabled state.

Preferably, according in the control response method of the embodiment of the present invention, described electronic equipment also comprises secondary input device, described secondary input device is arranged on described first input media, described secondary input device and described first input media as a whole, described secondary input device moves together with described first input media, described method also comprises: when leaving of described operating body being detected by described secondary input device after described voice acquisition device is enable, produce the first processing instruction; The described input operation that described operating body leaves for characterizing described operating body terminates; Respond described first processing instruction, the speech data gathered when being in enabled state for described voice acquisition device carries out the first process.

Preferably, the control response method according to the embodiment of the present invention also comprises: when described voice acquisition device is in described enabled state, determines that described operating body exists by described secondary input device; When described voice acquisition device is in described enabled state, determine that the relatively described electronic equipment of described first input media produces the second direction of relative movement of relative motion according to described kinematic parameter; When depositing at described operating body that the relatively described electronic equipment of described first input media carries out relative motion with the second direction of relative movement in case, produce the second processing instruction; Respond described second processing instruction, abandon the speech data gathered when described voice acquisition device is in enabled state.

Preferably, according in the control response method of the embodiment of the present invention, described syndeton also comprises resilient structures, when being positioned at the described operating body on described first input media and leaving, described resilient structures is for supporting that described first input media returns to initial position, described method comprises: when described voice acquisition device is in described enabled state, within the predetermined very first time, determine that described first input media leaves described first presumptive area and determines that described first input media not to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus by described kinematic parameter, produce the first processing instruction, leave described first presumptive area to characterize described first input media and return to initial position by described resilient structures, respond described first processing instruction, the speech data gathered when being in enabled state for described voice acquisition device carries out the first process, wherein, when described first input media leaves described first presumptive area and returns to initial position by described resilient structures, represent that the described input operation of described operating body terminates.

Preferably, according in the control response method of the embodiment of the present invention, when described voice acquisition device is in described enabled state, within the predetermined very first time, determine that described first input media leaves described first presumptive area and determines that described first input media to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus by described kinematic parameter, produce the second processing instruction, described first presumptive area is left and described secondary input device moves to described second presumptive area to characterize described first input media, respond described second processing instruction, abandon the speech data gathered when described voice acquisition device is in enabled state.

Preferably, according in the control response method of the embodiment of the present invention, described electronic equipment comprises the first state and the second state, described first state is the normal operating conditions of described electronic equipment, described second state is the low power consumpting state of described electronic equipment, and the display screen at least controlling described electronic equipment when described electronic equipment is in described second state is in closed condition; And each step of wherein said method performs when described electronic equipment is in the second state.

Preferably, according in the control response method of the embodiment of the present invention, perform each step of described method is any one application of the current operation of described electronic equipment when described electronic equipment is in described first state.

According to another aspect of the present invention, provide a kind of electronic equipment, comprising: body apparatus; First input media, it is flexibly connected with described body apparatus by syndeton, and the relatively described body apparatus of described first input media can be forced to produce relative motion when applying external force for described first input media; Voice acquisition device, for gathering phonetic entry; Pick-up unit, be arranged in described body apparatus, to carry out the kinematic parameter of relative motion relative to described body apparatus for obtaining described first input media, and determine that the relatively described body apparatus of described first input media produces the first direction of relative movement of relative motion according to described kinematic parameter, described first direction of relative movement controls the first input direction of the operation input that described first input media is formed relative to described body apparatus relative motion for characterizing described operating body; Control device, be positioned at described body apparatus, for based on described first direction of relative movement determination enabled instruction, and respond described enabled instruction, at least control described voice acquisition device and be in enabled state, the phonetic entry carried out with the user gathering described electronic equipment.

Preferably, according in the electronic equipment of the embodiment of the present invention, when described voice acquisition device is in described enabled state, according to described kinematic parameter, described pick-up unit determines whether the relatively described body apparatus of described first input media maintains the first presumptive area on described first direction of relative movement, characterize the maintenance state of the described operation input of described operating body when described first input media maintains described first presumptive area; When determining that according to described kinematic parameter the relatively described electronic equipment of described first input media maintains the first presumptive area on described first direction of relative movement, described control device controls described voice acquisition device to be continued to maintain described enabled state.

Preferably, electronic equipment according to the embodiment of the present invention also comprises secondary input device, described secondary input device is arranged on described first input media, described secondary input device and described first input media as a whole, described secondary input device moves together with described first input media, when leaving of described operating body being detected by described secondary input device after described voice acquisition device is enable, described control device produces the first processing instruction; The described input operation that described operating body leaves for characterizing described operating body terminates; Described equipment also comprises: treating apparatus, and for responding described first processing instruction, the speech data gathered when being in enabled state for described voice acquisition device carries out the first process.

Preferably, according in the electronic equipment of the embodiment of the present invention, when described voice acquisition device is in described enabled state, determine that described operating body exists by described secondary input device; When described voice acquisition device is in described enabled state, determine that the relatively described body apparatus of described first input media produces the second direction of relative movement of relative motion according to described kinematic parameter; When depositing at described operating body that the relatively described electronic equipment of described first input media carries out relative motion with the second direction of relative movement in case, described control device produces the second processing instruction; Respond described second processing instruction, the speech data gathered when described voice acquisition device is in enabled state abandoned by described treating apparatus.

Preferably, according in the electronic equipment of the embodiment of the present invention, described syndeton also comprises resilient structures, when being positioned at the described operating body on described first input media and leaving, described resilient structures is for supporting that described first input media returns to initial position, when described voice acquisition device is in described enabled state, within the predetermined very first time, by described kinematic parameter, described pick-up unit determines that described first input media leaves described first presumptive area and determines that described first input media not to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus, described control device produces the first processing instruction, leave described first presumptive area to characterize described first input media and return to initial position by described resilient structures, respond described first processing instruction, the speech data gathered when described treating apparatus is in enabled state for described voice acquisition device carries out the first process, wherein, when described first input media leaves described first presumptive area and returns to initial position by described resilient structures, represent that the described input operation of described operating body terminates.

Preferably, according in the electronic equipment of the embodiment of the present invention, when described voice acquisition device is in described enabled state, within the predetermined very first time, by described kinematic parameter, described pick-up unit determines that described first input media leaves described first presumptive area and determines that described first input media to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus, described control device produces the second processing instruction, described first presumptive area is left and described secondary input device moves to described second presumptive area to characterize described first input media, respond described second processing instruction, the speech data gathered when described voice acquisition device is in enabled state abandoned by described treating apparatus.

Preferably, according in the electronic equipment of the embodiment of the present invention, described electronic equipment comprises the first state and the second state, described first state is the normal operating conditions of described electronic equipment, described second state is the low power consumpting state of described electronic equipment, and the display screen at least controlling described electronic equipment when described electronic equipment is in described second state is in closed condition; And the process wherein performed by above-mentioned each device is carried out when described electronic equipment is in the second state.

Preferably, according in the electronic equipment of the embodiment of the present invention, carry out the process performed by above-mentioned each device is any one application of the current operation of described electronic equipment when described electronic equipment is in described first state.

According in the control response method of the embodiment of the present invention and electronic equipment, by the relative motion of entity but not the touch manner of virtual icon/button performs input operation, the direction then based on relative motion starts voice acquisition device.Visible, in this way, because the input undertaken by the first input media is the operation on hardware view, therefore, it is possible to effectively overcome the problem that software reacts slow.

Accompanying drawing explanation

Fig. 1 shows the process flow diagram of the process of the control response method according to the embodiment of the present invention;

Fig. 2 shows the process flow diagram of the process of a kind of example of the subsequent step after the step S104 shown in Fig. 1;

Fig. 3 shows the process flow diagram of the process of the another kind of example of the subsequent step after the step S104 shown in Fig. 1;

Fig. 4 shows the process flow diagram of the process of another example of the subsequent step after the step S104 shown in Fig. 1;

Fig. 5 shows the functional block diagram of the configuration of the electronic equipment according to the embodiment of the present invention;

Fig. 6 A-6C shows the view of the outward appearance of electronic equipment according to an embodiment of the invention;

Fig. 7 shows the view of the outward appearance of electronic equipment according to another embodiment of the invention; And

Fig. 8 shows the view of the outward appearance of electronic equipment according to still another embodiment of the invention.

Embodiment

Below with reference to accompanying drawings of the present invention each is preferred embodiment described.There is provided the description referring to accompanying drawing, to help the understanding to the example embodiment of the present invention limited by claim and equivalent thereof.It comprises the various details helping to understand, but they can only be counted as exemplary.Therefore, those skilled in the art will recognize that, can make various changes and modifications embodiment described herein, and do not depart from the scope of the present invention and spirit.And, in order to make instructions clearly succinct, will the detailed description to well known function and structure be omitted.

First, with reference to Fig. 1, the control response method according to the embodiment of the present invention is described.Described method is applied in electronic equipment, described electronic equipment comprises the first input media and body apparatus, described first input media is flexibly connected with described body apparatus by syndeton, and the relatively described body apparatus of described first input media can be forced to produce relative motion when applying external force for described first input media.That is, from operate the virtual icon that shows and touch screen display in prior art or button different different to carry out input, in electronic equipment according to the present invention, adopt the slip/rotating mechanism of entity to input.Detail about equipment will be described later.Such as, electronic equipment here can be mobile phone, panel computer, Wearable etc.

As shown in Figure 1, described method comprises:

First, in step S101, obtain described first input media carries out relative motion kinematic parameter relative to described body apparatus.

Such as, described kinematic parameter can be can the activation signal of two extreme positions (such as upper-lower position) on the body apparatus of relative motion for the first input media.Be described for upper and lower relative motion upwards below.Specifically, when the first input media upward sliding is to the extreme position on top, now first device contacts with this upper extreme position on body apparatus.Similarly, when the first input media slides down to the extreme position of bottom, now first device contacts with this lower limit position on body apparatus.The detection that contact just can realize activation signal is detected by arranging on this extreme position.But this mode only can detect the direction moved up and down roughly.

And for example, the relative motion of the first input media relative to body apparatus can also accurately be detected by the mode detecting magnetic flux.For example, Hall element can be set in one or more positions of body apparatus, and magnetic element is set on the first input media, thus detect relative position therebetween.

The detection mode more than enumerated is all the means that this area is commonly used, and therefore no longer launches to describe to its details.Certainly, the detection mode more than enumerated is only example, and the present invention is not limited to this.It should be appreciated by those skilled in the art, any other the mode that can detect the parameter of described relative motion can be applied to the present invention similarly, and should comprise within the scope of the invention.

Then, in step S102, determine according to described kinematic parameter whether the direction of described first input media relatively described body apparatus generation relative motion is the first direction of relative movement.Described first direction of relative movement controls the first input direction of the operation input that described first input media is formed relative to described body apparatus relative motion for characterizing described operating body.Such as, user can by described first input media of operation with relative to described body apparatus upward sliding, also can by described first input media of operation with relative to described body apparatus slide downward.And for example, user by described first input media of operation to slide relative to described body apparatus, also can pass through described first input media of operation to slide relative to described body apparatus to the right left.For another example, user can by operation described first input media to turn clockwise relative to described body apparatus, also can by operate described first input media to be rotated counterclockwise relative to described body apparatus.That is, described relative motion generally comprises two opposite directions.Certainly, the mode of above relative motion is only example.Any other relative motion mode also can be applied to the present invention similarly, and should be within the scope of the present invention.

If determine that the direction of relative motion is the first direction of relative movement in step S102, then process proceeds to step S103.In step S103, based on described first direction of relative movement determination enabled instruction.Otherwise process terminates.

Finally, in step S104, respond described enabled instruction, the voice acquisition device at least controlling described electronic equipment is in enabled state, the phonetic entry carried out with the user gathering described electronic equipment.Such as, when the first direction of relative movement is downward, start phonetic entry.

In control response method according to the present invention, by the relative motion of entity but not the touch manner of virtual icon/button performs input operation, the direction then based on relative motion starts voice acquisition device.Visible, in this way, because the input undertaken by the first input media is the operation on hardware view, therefore, it is possible to effectively overcome the problem that software reacts slow.

Fig. 2 shows the process flow diagram of the process of a kind of example of the subsequent step after the step S104 shown in Fig. 1.As shown in Figure 2, further, described method also comprises:

When described voice acquisition device is in described enabled state, process proceeds to step S105.In step S105, determine whether the relatively described body apparatus of described first input media maintains the first presumptive area on described first direction of relative movement according to described kinematic parameter.Here, the first presumptive area refers to the region of a specific size of (comprising extreme position) near extreme position.The maintenance state of the described operation input of described operating body is characterized when described first input media maintains described first presumptive area.Such as, when user to carry out pulling operation not let go after making described first input media slide down to lower limit position relative to body apparatus and the position of the first input media keeps motionless to described first input media, now certainly will be understood that the relatively described body apparatus of described first input media maintains the first presumptive area on described first direction of relative movement.Or, and for example, when user to carry out pulling operation not let go after making described first input media slide down to lower limit position relative to body apparatus but trickle change (substantially motionless) has appearred in the position of the first input media to described first input media, now also will be understood that the relatively described body apparatus of described first input media maintains the first presumptive area on described first direction of relative movement.Visible, no matter the first input media being completely motionless or trickle movement after drop-down, as long as the first input media maintains the first presumptive area relative to body apparatus, namely should think that the first input media is maintained at pull-down state.

When determining that the relatively described electronic equipment of described first input media maintains the first presumptive area on described first direction of relative movement in step S105 according to described kinematic parameter, process proceeds to step S106.In step S106, control described voice acquisition device and continue to maintain described enabled state, i.e. continuous collecting speech data under maintenance state.

Described above, when operating body maintains on the first input media to keep continuing during such as pull-down state to carry out the process of voice collecting.And will be understood that input operation terminates when operating body leaves the first input media.

In order to detect leaving of operating body on the first input media, as a kind of possible embodiment, described electronic equipment also comprises secondary input device, described secondary input device is arranged on described first input media, described secondary input device and described first input media as a whole, described secondary input device moves together with described first input media.About the embodiment of secondary input device provides detailed description by the description of the embodiment of electronic equipment after a while.

Fig. 3 shows the process of the subsequent step after the step S104 in Fig. 1 under this embodiment.

As shown in Figure 3, further, described method also comprises:

When described voice acquisition device is enable, process proceeds to step S107.In step S107, detect described operating body by described secondary input device and whether leave.When detecting that described operating body leaves in step S107, process proceeds to step S108.In step S108, produce the first processing instruction.As previously described, in fact, the described input operation that described operating body leaves for characterizing described operating body terminates.That is, voice collecting operation can complete, and wishes the process carrying out next step.After operating body leaves, if described syndeton is hereinafter described resilient structures, then described first input media returns to initial position by syndeton.If described syndeton is not hereinafter described resilient structures, then described first input media rests on position when operating body leaves.In other words, the embodiment whether left by secondary input device detection operating body both can be applied to resilient structures, also can be applied to non-resilient structures.

After step S108, process proceeds to step S109.In step S109, respond described first processing instruction, the speech data gathered when being in enabled state for described voice acquisition device carries out the first process.Such as, here first process can be that collected speech data is sent.Or alternately, the first process here also can be carry out speech recognition to collected speech data, and and then generates steering order.Certainly, more than enumerate and be only example.The present invention is not limited to this.Any other possible language data process also can be applied to the present invention similarly, and within the scope of the present invention.

On the other hand, if do not detect that described operating body leaves in step S107, then process proceeds to step S110.In step S110, determine according to described kinematic parameter whether the direction of described first input media relatively described electronic equipment generation relative motion is the second direction of relative movement.When in step S110, when determining that the direction of described first input media relatively described electronic equipment generation relative motion is the second direction of relative movement according to described kinematic parameter, process and proceed to step S111.In step S111, produce the second processing instruction.Next, process proceeds to step S112.In step S112, respond described second processing instruction, abandon the speech data gathered when described voice acquisition device is in enabled state.That is, such as, when again push-up operation (these two continuous actions occur successively when operating body does not leave) being carried out to it after pulling operation being carried out to the first input media at operating body, perform the operation abandoning collected speech data, namely cancel operation.On the other hand, when in step S110, when determining that the direction of described first input media relatively described electronic equipment generation relative motion is not the second direction of relative movement according to described kinematic parameter, process and turn back to step S107.

As noted before, described syndeton can be comprise resilient structures, also can not comprise resilient structures.When being positioned at the described operating body on described first input media and leaving, described resilient structures is for supporting that described first input media returns to initial position.That is, under resilient structures, after operating body leaves, the first input media such as upwards returns to initial position by resilient structures.Such as, usual initial position is be positioned at the centre position in the middle of upper and lower two extreme positions.But the relative motion of upward direction here can not think the input operation that user carries out, and can only regard simple home operation as.Therefore, under resilient structures, can not need to detect leaving of operating body by above described secondary input device, and only need detection first input media whether to leave described first presumptive area.

Fig. 4 shows the subsequent treatment after the step S104 under this embodiment in Fig. 1.

As shown in Figure 4, described method also comprises:

When described voice acquisition device is enable, process proceeds to step S107 '.In step S107 ', with step S107 unlike, within the predetermined very first time, determine whether described first input media leaves described first presumptive area by described kinematic parameter.Here, need accurately to detect the relative motion of the first input media relative to body apparatus.Such as, the mode of the above described change by detection magnetic flux can be adopted accurately to detect the relative motion of the first input media relative to body apparatus.If determine that described first input media leaves described first presumptive area in step S107 ', then process proceeds to step S110 '.In step S110 ', within the predetermined very first time, determine that whether described first input media moves to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus by described kinematic parameter.If in step S110 ', within the predetermined very first time, determine that described first input media not to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus by described kinematic parameter, then process proceeds to step S108.Step S108 is with above identical.In step S108, produce the first processing instruction, leave described first presumptive area to characterize described first input media and return to initial position by described resilient structures.

Following step S109 is with above identical, that is: respond described first processing instruction, the speech data gathered when being in enabled state for described voice acquisition device carries out the first process.

Wherein, when described first input media leaves described first presumptive area and returns to initial position by described resilient structures, represent that the described input operation of described operating body terminates.

On the other hand, if in step S113, within the predetermined very first time, determine that described first input media to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus by described kinematic parameter, then process proceeds to step S111.Step S111 is with above identical.In step S111, produce the second processing instruction, leave described first presumptive area and described secondary input device moves to described second presumptive area to characterize described first input media.That is, such as, when again it being carried out push-up operation (to extreme upper position or close to extreme upper position) instead of is set back simply after pulling operation (to lower limit position or close to lower limit position) being carried out to the first input media at operating body, perform the operation abandoning collected speech data, namely cancel operation.

Following step S112 with above identical, that is: responds described second processing instruction, abandons the speech data gathered when described voice acquisition device is in enabled state.

In addition, here it should be noted that, described electronic equipment comprises the first state and the second state, described first state is the normal operating conditions of described electronic equipment, described second state is the low power consumpting state of described electronic equipment, and the display screen at least controlling described electronic equipment when described electronic equipment is in described second state is in closed condition.

Each step of the method above described can perform when described electronic equipment is in the second state, and namely screen performs under being in closed condition.Specifically, when electronic equipment is in the second state, user just can start voice acquisition device to gather the voice of user's input by operation first input media, and now electronic equipment is in the second state all the time.

Certainly, as preferred embodiment, when electronic equipment is in the second state, after user input voice, vibration of electronic equipment can also be made or send prompt tone to confirm to have gathered the voice just now inputted to user.Or when electronic equipment is in the second state, at user operation first input media with after starting voice acquisition device, electronic equipment is waken up, and is namely switched to the first state from the second state.

Certainly, each step of the method above described also can perform when any one application of the current operation of described electronic equipment when described electronic equipment is in described first state.

Hereinbefore, the process of the control response method according to various embodiments of the present invention is described in detail by referring to Fig. 1 to Fig. 4.Next, with reference to Fig. 5 to figure, the configuration according to the electronic equipment of various embodiments of the present invention is described.

First, Fig. 5 shows the functional block diagram of the configuration of the electronic equipment according to the embodiment of the present invention.As shown in Figure 5, electronic equipment 500 comprises: body apparatus 501, first input media 502, voice acquisition device 503, pick-up unit 504 and control device 505.

First input media 502 its be flexibly connected with described body apparatus 501 by syndeton, and the relatively described body apparatus of described first input media can be forced to produce relative motion when applying external force for described first input media.

Such as, described syndeton can be can the resilient structures of automatic homing.Specifically, when applying external force by operating body to the first input media, the first input media by described specific mechanical configurations relative to body apparatus generation relative motion, and can set back after described external force disappears.Usually, the original position of the first input media is the centre position between upper and lower two extreme positions.

Certainly, described syndeton also can the non-resilient structures of automatic homing.

Voice acquisition device 503 is arranged in described body apparatus 501, for gathering phonetic entry.

Pick-up unit 504 is arranged in described body apparatus 501, to carry out the kinematic parameter of relative motion relative to described body apparatus 501 for obtaining described first input media 502, and determine that the relatively described body apparatus 501 of described first input media 502 produces the first direction of relative movement of relative motion according to described kinematic parameter, described first direction of relative movement controls the first input direction of the operation input that described first input media 502 is formed relative to the relative motion of described body apparatus 501 for characterizing described operating body.

With above described content accordingly, pick-up unit 504 can be the detection contact arranged on this extreme position, or also can be the multiple Hall elements arranged on body apparatus.

Control device 505 is positioned at described body apparatus 501, for based on described first direction of relative movement determination enabled instruction, and respond described enabled instruction, at least control described voice acquisition device 503 and be in enabled state, the phonetic entry carried out with the user gathering described electronic equipment.Such as, when the first direction of relative movement is downward, start phonetic entry.

In electronic equipment according to the present invention, by the relative motion of entity but not the touch manner of virtual icon/button performs input operation, the direction then based on relative motion starts voice acquisition device.Visible, in this way, because the input undertaken by the first input media is the operation on hardware view, therefore, it is possible to effectively overcome the problem that software reacts slow.

Next, with reference to Fig. 6 A-6C, Fig. 7 and Fig. 8, the structural configuration according to the electronic equipment of the embodiment of the present invention is described.

First, Fig. 6 A-6C shows the view of the outward appearance of a kind of example of the electronic equipment according to the embodiment of the present invention.As shown in figs 6 a-6 c, electronic equipment 500 comprises display touch-screen.Further, described display touch-screen is fixed on described first input media, thus described display touch-screen is flexibly connected with described body apparatus by syndeton.Fig. 6 A is to front elevation during extreme upper position by the first input media upward sliding, Fig. 6 B is front elevation when the first input media being slid down to lower limit position, and Fig. 6 C is that the first input media upward sliding is to side view during extreme upper position.

Fig. 7 shows the view of the outward appearance of the another kind of example of the electronic equipment according to the embodiment of the present invention.In this example, electronic equipment 500 also comprises display touch-screen, and described display touch-screen is arranged in the body apparatus of described electronic equipment, and the viewing area of described display touch-screen is appeared by the first surface of described body apparatus.Be dull and stereotyped with the example shown in Fig. 6 A-6C unlike, described first input media, described flat board is movably connected on the second surface of described body apparatus by syndeton, and described first surface is contrary with described second surface.That is, the first input media is the flat board that can slide up and down relative to body apparatus at the back side being positioned at electronic equipment.Therefore, Fig. 7 illustrate only the rear view of the outward appearance of electronic equipment.

Fig. 8 shows the view of the outward appearance of another example of the electronic equipment according to the embodiment of the present invention.The difference of Fig. 8 and Fig. 7 is, described flat board also can be circular.Fig. 8 illustrate only dull and stereotyped for sliding up and down when circular.But, it is envisioned that clockwise/counterclockwise rotation also can be carried out.

In addition, again with reference to Fig. 5, electronic equipment 500 according to the embodiment of the present invention also comprises secondary input device 506, described secondary input device 506 is arranged on described first input media, described secondary input device and described first input media as a whole, described secondary input device moves together with described first input media.In the embodiment shown in Fig. 6 A-6C, display touch-screen is secondary input device 506.Leaving of operating body can be detected by display touch-screen.In the embodiment shown in Fig. 7 and Fig. 8, the sensing device of such as pressure transducer and so on can be set on described flat board as secondary input device, to detect leaving of operating body.Or, also can on described flat board integrated touch plate, except the leaving of sense operation body, operating body movement locus thereon accurately can also be detected.

When described voice acquisition device 503 is in described enabled state, according to described kinematic parameter, described pick-up unit 504 determines whether the relatively described body apparatus of described first input media 502 501 maintains the first presumptive area on described first direction of relative movement, characterize the maintenance state of the described operation input of described operating body when described first input media 502 maintains described first presumptive area.

When determining that according to described kinematic parameter the relatively described electronic equipment 501 of described first input media 502 maintains the first presumptive area on described first direction of relative movement, described control device 505 controls described voice acquisition device 503 to be continued to maintain described enabled state.

When leaving of described operating body being detected by described secondary input device 506 after described voice acquisition device 503 is enable, described control device 505 produces the first processing instruction; The described input operation that described operating body leaves for characterizing described operating body terminates.

Described electronic equipment 500 also comprises: treating apparatus 507, and for responding described first processing instruction, the speech data gathered when being in enabled state for described voice acquisition device carries out the first process.Such as, here first process can be that collected speech data is sent.Or alternately, the first process here also can be carry out speech recognition to collected speech data, and and then generates steering order.

As a kind of embodiment, operating body can be detected by secondary input device and whether exist.Specifically, when described voice acquisition device 503 is in described enabled state, determine that described operating body exists by described secondary input device 506.

When described voice acquisition device 503 is in described enabled state, determine that the relatively described body apparatus 501 of described first input media 502 produces the second direction of relative movement of relative motion according to described kinematic parameter.

When depositing at described operating body that the relatively described body apparatus 501 of described first input media 502 carries out relative motion with the second direction of relative movement in case, described control device 505 produces the second processing instruction.

Respond described second processing instruction, the speech data gathered when described voice acquisition device is in enabled state abandoned by described treating apparatus 507.

As noted before, described syndeton also comprises resilient structures, when being positioned at the described operating body on described first input media and leaving, described resilient structures is for supporting that described first input media returns to initial position.

When resilient structures, as another kind of possibility embodiment, operating body can be detected when not needing secondary input device 506 and whether exist.

Specifically, when described voice acquisition device 503 is in described enabled state, within the predetermined very first time, by described kinematic parameter, described pick-up unit 504 determines that described first input media 502 leaves described first presumptive area and determines that described first input media 502 not to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus 501, described control device 505 produces the first processing instruction, leave described first presumptive area to characterize described first input media 502 and return to initial position by described resilient structures.

Respond described first processing instruction, the speech data gathered when described treating apparatus 507 is in enabled state for described voice acquisition device 503 carries out the first process.

Wherein, when described first input media 502 leaves described first presumptive area and returns to initial position by described resilient structures, represent that the described input operation of described operating body terminates.

When described voice acquisition device 503 is in described enabled state, within the predetermined very first time, by described kinematic parameter, described pick-up unit 504 determines that described first input media 502 leaves described first presumptive area and determines that described first input media 502 to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus, described control device 505 produces the second processing instruction, described first presumptive area is left and described first input media 502 moves to described second presumptive area to characterize described first input media 502.

Respond described second processing instruction, the speech data gathered when described voice acquisition device 503 is in enabled state abandoned by described treating apparatus 507.

And, as noted before, described electronic equipment comprises the first state and the second state, described first state is the normal operating conditions of described electronic equipment, described second state is the low power consumpting state of described electronic equipment, and the display screen at least controlling described electronic equipment when described electronic equipment is in described second state is in closed condition; And the process wherein performed by above-mentioned each device can be carried out when described electronic equipment is in the second state.

Specifically, when electronic equipment is in the second state, user just can start voice acquisition device to gather the voice of user's input by operation first input media, and now electronic equipment is in the second state all the time.

Certainly, as preferred embodiment, when electronic equipment is in the second state, after user input voice, vibration of electronic equipment can also be made or send prompt tone etc. to confirm to have gathered the voice just now inputted to user.Or when electronic equipment is in the second state, at user operation first input media with after starting voice acquisition device, electronic equipment is waken up, and is namely switched to the first state from the second state.

Certainly, the process performed by above-mentioned each device also can be carried out when any one application of the current operation of described electronic equipment when described electronic equipment is in described first state.

Because the electronic equipment according to various embodiments of the present invention is completely corresponding with the control response method described before, therefore for brevity, no longer launch to describe to its details.

Up to now, control response method according to the embodiment of the present invention and electronic equipment is described in detail referring to figs. 1 through Fig. 8.According in the control response method of the embodiment of the present invention and electronic equipment, by the relative motion of entity but not the touch manner of virtual icon/button performs input operation, the direction then based on relative motion starts voice acquisition device.Visible, in this way, because the input undertaken by the first input media is the operation on hardware view, therefore, it is possible to effectively overcome the problem that software reacts slow.

It should be noted that, in this manual, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

Finally, also it should be noted that, above-mentioned a series of process not only comprises with the order described here temporally process that performs of sequence, and comprises process that is parallel or that perform respectively instead of in chronological order.

Through the above description of the embodiments, those skilled in the art can be well understood to the mode that the present invention can add required hardware platform by software and realize, and can certainly all be implemented by software.Based on such understanding, what technical scheme of the present invention contributed to background technology can embody with the form of software product in whole or in part, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the method described in some part of each embodiment of the present invention or embodiment.

Above to invention has been detailed introduction, applying specific case herein and setting forth principle of the present invention and embodiment, the explanation of above embodiment just understands method of the present invention and core concept thereof for helping; Meanwhile, for one of ordinary skill in the art, according to thought of the present invention, all will change in specific embodiments and applications, in sum, this description should not be construed as limitation of the present invention.

Claims (16)

1. one kind controls response method, described method is applied in electronic equipment, described electronic equipment comprises the first input media and body apparatus, described first input media is flexibly connected with described body apparatus by syndeton, and the relatively described body apparatus of described first input media can be forced relative motion is produced when applying external force for described first input media, described method comprises:

Obtain described first input media carries out relative motion kinematic parameter relative to described body apparatus;

Determine that the relatively described body apparatus of described first input media produces the first direction of relative movement of relative motion according to described kinematic parameter; Described first direction of relative movement controls the first input direction of the operation input that described first input media is formed relative to described body apparatus relative motion for characterizing described operating body;

Based on described first direction of relative movement determination enabled instruction;

Respond described enabled instruction, the voice acquisition device at least controlling described electronic equipment is in enabled state, the phonetic entry carried out with the user gathering described electronic equipment.

2. method according to claim 1, also comprises:

When described voice acquisition device is in described enabled state, determine whether the relatively described body apparatus of described first input media maintains the first presumptive area on described first direction of relative movement according to described kinematic parameter, characterize the maintenance state of the described operation input of described operating body when described first input media maintains described first presumptive area;

When determining that according to described kinematic parameter the relatively described electronic equipment of described first input media maintains the first presumptive area on described first direction of relative movement, controlling described voice acquisition device and continuing to maintain described enabled state.

3. method according to claim 2, wherein said electronic equipment also comprises secondary input device, described secondary input device is arranged on described first input media, described secondary input device and described first input media as a whole, described secondary input device moves together with described first input media, and described method also comprises:

When leaving of described operating body being detected by described secondary input device after described voice acquisition device is enable, produce the first processing instruction; The described input operation that described operating body leaves for characterizing described operating body terminates;

Respond described first processing instruction, the speech data gathered when being in enabled state for described voice acquisition device carries out the first process.

4. method according to claim 3, also comprises:

When described voice acquisition device is in described enabled state, determine that described operating body exists by described secondary input device;

When described voice acquisition device is in described enabled state, determine that the relatively described electronic equipment of described first input media produces the second direction of relative movement of relative motion according to described kinematic parameter;

When depositing at described operating body that the relatively described electronic equipment of described first input media carries out relative motion with the second direction of relative movement in case, produce the second processing instruction;

Respond described second processing instruction, abandon the speech data gathered when described voice acquisition device is in enabled state.

5. method according to claim 2, described syndeton also comprises resilient structures, when being positioned at the described operating body on described first input media and leaving, described resilient structures is for supporting that described first input media returns to initial position, described method comprises:

When described voice acquisition device is in described enabled state, within the predetermined very first time, determine that described first input media leaves described first presumptive area and determines that described first input media not to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus by described kinematic parameter, produce the first processing instruction, leave described first presumptive area to characterize described first input media and return to initial position by described resilient structures;

Respond described first processing instruction, the speech data gathered when being in enabled state for described voice acquisition device carries out the first process;

Wherein, when described first input media leaves described first presumptive area and returns to initial position by described resilient structures, represent that the described input operation of described operating body terminates.

6. method according to claim 5, wherein when described voice acquisition device is in described enabled state, within the predetermined very first time, determine that described first input media leaves described first presumptive area and determines that described first input media to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus by described kinematic parameter, produce the second processing instruction, described first presumptive area is left and described secondary input device moves to described second presumptive area to characterize described first input media,

Respond described second processing instruction, abandon the speech data gathered when described voice acquisition device is in enabled state.

7. method according to claim 1, wherein said electronic equipment comprises the first state and the second state, described first state is the normal operating conditions of described electronic equipment, described second state is the low power consumpting state of described electronic equipment, and the display screen at least controlling described electronic equipment when described electronic equipment is in described second state is in closed condition; And

Each step of wherein said method performs when described electronic equipment is in the second state.

8. method according to claim 1, performs each step of wherein said method is any one application of the current operation of described electronic equipment when described electronic equipment is in described first state.

9. an electronic equipment, comprising:

Body apparatus;

First input media, it is flexibly connected with described body apparatus by syndeton, and the relatively described body apparatus of described first input media can be forced to produce relative motion when applying external force for described first input media;

Voice acquisition device, for gathering phonetic entry;

Pick-up unit, be arranged in described body apparatus, to carry out the kinematic parameter of relative motion relative to described body apparatus for obtaining described first input media, and determine that the relatively described body apparatus of described first input media produces the first direction of relative movement of relative motion according to described kinematic parameter, described first direction of relative movement controls the first input direction of the operation input that described first input media is formed relative to described body apparatus relative motion for characterizing described operating body;

Control device, be positioned at described body apparatus, for based on described first direction of relative movement determination enabled instruction, and respond described enabled instruction, at least control described voice acquisition device and be in enabled state, the phonetic entry carried out with the user gathering described electronic equipment.

10. electronic equipment according to claim 9, wherein

When described voice acquisition device is in described enabled state, according to described kinematic parameter, described pick-up unit determines whether the relatively described body apparatus of described first input media maintains the first presumptive area on described first direction of relative movement, characterize the maintenance state of the described operation input of described operating body when described first input media maintains described first presumptive area;

When determining that according to described kinematic parameter the relatively described electronic equipment of described first input media maintains the first presumptive area on described first direction of relative movement, described control device controls described voice acquisition device to be continued to maintain described enabled state.

11. electronic equipments according to claim 10, also comprise secondary input device, described secondary input device is arranged on described first input media, described secondary input device and described first input media as a whole, described secondary input device moves together with described first input media

When leaving of described operating body being detected by described secondary input device after described voice acquisition device is enable, described control device produces the first processing instruction; The described input operation that described operating body leaves for characterizing described operating body terminates;

Described equipment also comprises: treating apparatus, and for responding described first processing instruction, the speech data gathered when being in enabled state for described voice acquisition device carries out the first process.

12. electronic equipments according to claim 11, wherein

When described voice acquisition device is in described enabled state, determine that described operating body exists by described secondary input device;

When described voice acquisition device is in described enabled state, determine that the relatively described body apparatus of described first input media produces the second direction of relative movement of relative motion according to described kinematic parameter;

When depositing at described operating body that the relatively described electronic equipment of described first input media carries out relative motion with the second direction of relative movement in case, described control device produces the second processing instruction;

Respond described second processing instruction, the speech data gathered when described voice acquisition device is in enabled state abandoned by described treating apparatus.

13. electronic equipments according to claim 10, wherein said syndeton also comprises resilient structures, described resilient structures for supporting that described first input media returns to initial position when being positioned at the described operating body on described first input media and leaving,

When described voice acquisition device is in described enabled state, within the predetermined very first time, by described kinematic parameter, described pick-up unit determines that described first input media leaves described first presumptive area and determines that described first input media not to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus, described control device produces the first processing instruction, leave described first presumptive area to characterize described first input media and return to initial position by described resilient structures,

Respond described first processing instruction, the speech data gathered when described treating apparatus is in enabled state for described voice acquisition device carries out the first process;

Wherein, when described first input media leaves described first presumptive area and returns to initial position by described resilient structures, represent that the described input operation of described operating body terminates.

14. electronic equipments according to claim 13, wherein when described voice acquisition device is in described enabled state, within the predetermined very first time, by described kinematic parameter, described pick-up unit determines that described first input media leaves described first presumptive area and determines that described first input media to move to the second presumptive area on described second direction of relative movement with the second direction of relative movement contrary with described first direction of relative movement relative to described body apparatus, described control device produces the second processing instruction, described first presumptive area is left and described secondary input device moves to described second presumptive area to characterize described first input media,

Respond described second processing instruction, the speech data gathered when described voice acquisition device is in enabled state abandoned by described treating apparatus.

15. electronic equipments according to claim 9, wherein said electronic equipment comprises the first state and the second state, described first state is the normal operating conditions of described electronic equipment, described second state is the low power consumpting state of described electronic equipment, and the display screen at least controlling described electronic equipment when described electronic equipment is in described second state is in closed condition; And

Process wherein performed by above-mentioned each device is carried out when described electronic equipment is in the second state.

16. electronic equipments according to claim 9, carry out the process wherein performed by above-mentioned each device is any one application of the current operation of described electronic equipment when described electronic equipment is in described first state.