CN104699286A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment. The electronic equipment comprises a touch display unit. The method comprises the following steps: obtaining a first touch slide operation of an operation body on the touch display unit and a first last contact point of the first touch slide operation on the touch display unit; detecting and obtaining a first overhead slide operation of the operation body positioned in a space above the touch display unit and taking the first last contact point as a starting point; based on the first touch slide operation and the first overhead slide operation, generating and executing a first control instruction.

Description

A kind of method of information processing and electronic equipment

Technical field

The application relates to electronic technology field, the method for particularly a kind of information processing and electronic equipment.

Background technology

Along with the fast development of electronic technology, the function of various electronic equipment is also more and more abundanter, more and more hommization, makes user have better Experience Degree in the process using electronic equipment.With regard to adept machine, present smart mobile phone, except keeping the most basic call function, can say and be modified into a small-sized computer, not only there is powerful storage space, various software can be installed, and the various functions of mobile phone are also done more and more meticulousr and human nature.

Existing touch-control class of electronic devices, no matter mobile phone or computer, be nearly all by touch screen and display screen Overlap design, user can realize various operation by the content clicked in display screen, compared with traditional key-press input mode, have greatly improved in user experience.The mode of the operation of existing touch-control class of electronic devices response user is detected the touch touch operation of user by touching display screen, different orders is performed according to the clicking operation on touching display screen or drag operation, but present inventor is in the process realizing invention technical scheme in the embodiment of the present application, find that above-mentioned technology at least exists following technical matters:

Because existing touch-control class of electronic devices can only respond touch operation, the diversity requirement of user to mode of operation can not be met, and there is now increasing large-size screen monitors touch-control kind equipment, the touch touch control operations such as dragging to be carried out on large-area screen, operational puzzlement will certainly be brought to user, therefore, the technical matters that the mode of operation of existing touch-control class of electronic devices existence response user is single.

Summary of the invention

The embodiment of the present application by providing a kind of method and electronic equipment of information processing, in order to solve the single technical matters of the mode of operation of response user that existing touch-control class of electronic devices exists.

On the one hand, the embodiment of the present application provides a kind of method of information processing, be applied to an electronic equipment, described electronic equipment comprises a touch-display unit, and described method comprises: obtain the first touch-control slide of an operating body in described touch-display unit and the first last contact point of described first touch-control slide in described touch-display unit; Detect and obtain described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space; Based on described first touch-control slide and described first aerial sliding operation, generate and perform the first steering order.

Optionally, described based on described first touch-control slide and described first aerial sliding operation, generate and perform the first steering order, specifically comprising: the first touch trajectory obtaining described first touch-control slide, and obtaining the first sliding trace of described first aerial sliding operation; Based on described first touch trajectory and described first sliding trace, generate and perform the first steering order.

Optionally, described based on described first touch trajectory and described first sliding trace, generate and perform the first steering order, specifically comprising: obtaining the first angle value formed between the direction of described first touch trajectory and the direction of described first sliding trace; Based on described first angle value, generate and perform the first steering order.

Optionally, obtain described operating body with the described first last contact point for starting point is after the first aerial sliding operation of described touch control unit superjacent air space described detection, described method also comprises: obtain described first aerial sliding operation and drop on the second last contact point in described touch-display unit; Detect and obtain described operating body with the described second last contact point for the second touch-control slide of starting point in described touch-display unit; Based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

Optionally, described based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order, specifically comprising: detecting the sliding time that described first aerial sliding operates in described touch-display unit superjacent air space; Judge that whether described sliding time is more than a Preset Time; When not exceeding described Preset Time, based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

Optionally, described based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order, specifically comprising: the second touch trajectory obtaining described second touch-control slide; Obtain the second angle value formed between the direction of described first touch trajectory and the direction of described second touch trajectory; Based on described second angle value, generate and perform the second steering order.

Optionally, the described described operating body of acquisition that detects operates for first aerial sliding of starting point at described touch-display unit superjacent air space with the described first last contact point, is specially: detected by the wide-angle camera of described electronic equipment and obtain described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space.

Optionally, described detection obtains described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space, specifically comprises: to detect in described touch-display unit with the described first last contact point as starting point and track that the inductance that produces changes; Obtain with the described first last contact point as starting point is in the first aerial sliding operation of described touch-display unit superjacent air space based on described track.

On the other hand, the embodiment of the present application also provides a kind of electronic equipment, described electronic equipment comprises a touch-display unit, described electronic equipment also comprises: the first touch control operation obtains unit, for obtaining the first touch-control slide of an operating body in described touch-display unit and the first last contact point of described first touch-control slide in described touch-display unit; First aerial operation obtains unit, obtains described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space for detecting; First generation unit, for based on described first touch-control slide and described first aerial sliding operation, generates and performs the first steering order.

Optionally, described first generation unit, specifically comprises: the first track obtaining unit, for obtaining the first touch trajectory of described first touch-control slide, and obtains the first sliding trace of described first aerial sliding operation; First generates subelement, for based on described first touch trajectory and described first sliding trace, generates and performs the first steering order.

Optionally, described first generates subelement, specifically comprises: the first angle obtains unit, for obtaining the first angle value formed between the direction of described first touch trajectory and the direction of described first sliding trace; First instruction generation unit, for based on described first angle value, generates and performs the first steering order.

Optionally, described electronic equipment also comprises: contact point obtains unit, drops on the second last contact point in described touch-display unit for obtaining described first aerial sliding operation; Second touch control operation obtains unit, obtains described operating body with the described second last contact point for the second touch-control slide of starting point in described touch-display unit for detecting; Second generation unit, for based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

Optionally, described second generation unit, specifically comprises: time detecting unit, operates in the sliding time of described touch-display unit superjacent air space for detecting described first aerial sliding; Judging unit, for judging that whether described sliding time is more than a Preset Time; Second generates subelement, and for when not exceeding described Preset Time, based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and perform the second steering order.

Optionally, described second generation unit, specifically comprises: the second track obtaining unit, for obtaining the second touch trajectory of described second touch-control slide; Second angle obtains unit, for obtaining the second angle value formed between the direction of described first touch trajectory and the direction of described second touch trajectory; Second instruction generation unit, for based on described second angle value, generates and performs the second steering order.

Optionally, described first aerial operation obtains unit and is specially wide-angle camera.

Optionally, described first aerial operation obtains unit, specifically comprises: inductance track obtaining unit, for detecting in described touch-display unit with the described first last contact point as starting point and track that the inductance that produces changes; First aerial operation obtains subelement, for obtaining based on described track with the described first last contact point as starting point is in the first aerial sliding operation of described touch-display unit superjacent air space.

The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:

(1) due in the embodiment of the present application, adopt in touch-control class of electronic devices, obtain a touch-control slide and an operation of the aerial sliding at touch screen superjacent air space, wherein, aerial sliding operation with last contact point on touch screen of touch-control slide for starting point, thus an integrated operation is used as in two operations responds, generate and perform the technological means of the steering order corresponding with this integrated operation, solve the technical matters that the mode of operation of the response user that existing touch-control class of electronic devices exists is single, achieve as touch-control class of electronic devices provides a kind of new response mode, thus the technique effect of more action type can be responded.

(2) due in the embodiment of the present application, adopt and detect the touch control operation of user on the touch screen of touch-control class of electronic devices simultaneously, and based on touch control operation, be extended to the slide in touch screen superjacent air space, and the technological means of different steering orders is generated according to the different tracks of two operations, achieve the action type adding user and touch-control class of electronic devices is carried out, eliminate the technique effect that touch control operation type that electronic equipment can respond is single.

(3) due in the embodiment of the present application, in the touch-control class of electronic devices of giant-screen, adopt touch-control slide to operate the technological means of the action type combined with aerial sliding, achieve when user on touching display screen when operating at a distance, do not need finger to contact with touching display screen always, reduce the possibility of maloperation, and improve the Experience Degree of user.

Accompanying drawing explanation

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

Fig. 2 carries out the schematic diagram of touch-control slide and aerial sliding operation for the first user that the embodiment of the present application provides on touching display screen;

Fig. 3 carries out the schematic diagram of touch-control slide and aerial sliding operation for the second user that the embodiment of the present application provides on touching display screen;

Fig. 4 carries out the schematic diagram of touch-control slide and aerial sliding operation for the third user that the embodiment of the present application provides on touching display screen;

Fig. 5 carries out the schematic diagram of touch-control slide and aerial sliding operation for the 4th kind of user that the embodiment of the present application provides on touching display screen;

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

Embodiment

The embodiment of the present application, by providing a kind of method and electronic equipment of information processing, solves the technical matters that the mode of operation of the response user that existing touch-control class of electronic devices exists is single.

Technical scheme in the embodiment of the present application is for solving the problem, and general thought is as follows:

There is provided a kind of method of information processing, be applied to an electronic equipment, described electronic equipment comprises a touch-display unit, and described method comprises:

Obtain the first touch-control slide of an operating body in described touch-display unit and the first last contact point of described first touch-control slide in described touch-display unit; Detect and obtain described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space; Based on described first touch-control slide and described first aerial sliding operation, generate and perform the first steering order.

Visible, the embodiment of the present application obtains a touch-control slide and an operation of the aerial sliding at touch screen superjacent air space owing to adopting in touch-control class of electronic devices, wherein, aerial sliding operation with last contact point on touch screen of touch-control slide for starting point, thus an integrated operation is used as in two operations responds, generate and perform the technological means of the steering order corresponding with this integrated operation, solve the technical matters that the mode of operation of the response user that existing touch-control class of electronic devices exists is single, achieve as touch-control class of electronic devices provides a kind of new response mode, thus the technique effect of more action type can be responded.

In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail, the specific features being to be understood that in the embodiment of the present application and embodiment is the detailed description to technical scheme, instead of the restriction to technical scheme, when not conflicting, the technical characteristic in the embodiment of the present application and embodiment can combine mutually.

The electronic equipment that the method for the information processing provided in the embodiment of the present application is applied to refers to the electronic equipment with touching display screen, such as panel computer, notebook computer, smart mobile phone, PDA(PersonalDigital Assistant, personal digital assistant), or large-scale multimedia play equipment etc., as long as the electronic equipment with touch-display unit can.

As shown in Figure 1, the method for the information processing that the embodiment of the present application provides, specifically comprises step:

S1: obtain the first touch-control slide of an operating body in described touch-display unit and the first last contact point of described first touch-control slide in described touch-display unit;

S2: detect and obtain described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space;

S3: based on described first touch-control slide and described first aerial sliding operation, generate and perform the first steering order.

In specific implementation process, operating body can be the finger of user in the embodiment of the present application, also pointer etc. can carry out the operating body of touch operation.Here just specifically for the finger of user, perform step S1, as shown in Figure 2, system obtains the first touch-control slide 10 of user on touching display screen 500, and detect the first last contact point 101 of the first touch-control slide 10 on touching display screen 500, here the last contact point that the finger that the first last contact point 101 specifically refers to user stays when doing the first touch-control slide 10 on touching display screen 500, the i.e. end point of the first touch-control slide 10 is noted that.

Then perform step S2, the finger of system continuation detection acquisition user is with the first last contact point 101 for starting point, and the first aerial sliding in the superjacent air space of touching display screen 500 operates 20.That is, the first aerial sliding operation 20 has been connected by the first last contact point 101 and the first touch-control slide 10, and the first aerial sliding operation 20 is that the first touch-control slide 10 continues from touching display screen 100 to aerial action.

When obtaining the first touch-control slide 10 and the first aerial sliding operates after 20, perform step S3, based on the first touch-control slide 10 and the first aerial sliding operation 20, generate and perform the first steering order, here be noted that, first touch-control slip 10 and the first aerial sliding operate 20 in the face of electronic equipment, on touching display screen 100 and the superjacent air space of touching display screen 100 detects two operations acquired respectively, but because these two operations are coherent, therefore for user, an overall operational motion in fact, just this operational motion half drops on touching display screen, half leaves touching display screen.

Further, described step S3, specifically comprises:

Obtain the first touch trajectory of described first touch-control slide, and obtain the first sliding trace of described first aerial sliding operation;

Based on described first touch trajectory and described first sliding trace, generate and perform the first steering order.

In specific implementation process, to generate in step S3 and the mode performing the first steering order is specially, first the first touch trajectory of the first touch-control slide will be obtained, and first controls the first sliding trace of slide, and then based on the first different touch trajectory and the first different sliding traces, generate corresponding first steering order.That is, according to the array mode of the first touch trajectory and the first sliding trace different tracks separately, the steering order of generation is different.Such as, in Fig. 2, first touch trajectory of the first touch-control slide 10 on touching display screen 500 is straight line obliquely, it is continuity straight lines to the first touch trajectory that first aerial sliding operates 20 skyborne first sliding traces, that is the track of two operations is all straight line, now, the system of electronic equipment can generate the steering order of an adjustment volume, such as, if now playing video or music in electronic equipment, perform this steering order, the volume value of electronic equipment can be heightened.And for example Fig. 3, the wherein straight line of the first touch trajectory level of the first touch-control slide 10, and the first sliding trace of the first aerial sliding operation 20 is a circle, now, system can generate the steering order of a screen locking, performs this steering order, will carry out screen locking to touching display screen.

Visible, in the embodiment of the present application, detect the touch control operation of user on the touch screen of touch-control class of electronic devices owing to adopting simultaneously, and based on touch control operation, be extended to the slide in touch screen superjacent air space, and generate the technological means of different steering orders according to the different tracks of two operations, achieve the action type adding user and touch-control class of electronic devices is carried out, eliminate the technique effect that touch control operation type that electronic equipment can respond is single.

Further, described based on described first touch trajectory and described first sliding trace, generate and perform the first steering order, specifically comprising:

Obtain the first angle value formed between the direction of described first touch trajectory and the direction of described first sliding trace;

Based on described first angle value, generate and perform the first steering order.

In specific implementation process, to generate in step S3 and to perform the mode of the first steering order also relevant with the angle value formed between the direction of the first touch trajectory and the direction of the first sliding trace.Here the first angle value specifically refers to the angle roughly between trend and roughly the moving towards of the first sliding trace of the first touch trajectory, such as when the first angle value steering order that system generates within the scope of 0 ~ 90 degree, different with the first angle value steering order that system generates within the scope of 90 ~ 180 degree, just as shown in Fig. 2 and Fig. 3, in fig. 2, the first angle value between first touch trajectory and the first sliding trace is 0 degree, and in Fig. 3, the first angle value between first touch trajectory and the first sliding trace can be understood as 180 degree, so, in these two figure, the steering order that system generates is different, again as shown in Figure 4, first sliding trace of the first aerial sliding operation 20 is curve obliquely, but bending degree is not high, the first angle value formed between the first touch trajectory corresponding with the first touch-control slide should drop within the scope of 0 ~ 90 degree, therefore, for system, shown in Fig. 2 and Fig. 4 two steering order of operation corresponding to entirety is the same.

Further, after described step S2, described method also comprises:

Obtain described first aerial sliding operation and drop on the second last contact point in described touch-display unit;

Detect and obtain described operating body with the described second last contact point for the second touch-control slide of starting point in described touch-display unit;

Based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

In specific implementation process, as shown in Figure 5, being obtained the first touch-control slide 10 respectively by step S1 and S2 and the first aerial sliding operates after 20, when the first aerial sliding operation 20 drops on touching display screen 500, obtain the second last contact point 102 of finger on touching display screen 500 of user, first last contact point 101 and the second last contact point 102 are two contact points that the first aerial sliding operates 20 and touching display screen 500, after the second last contact point 102 having been detected, detect again and whether have the finger of user to be the second touch-control slide 30 of starting point at touching display screen 500 with the second last contact point 102, after detecting, again based on the first touch-control slide 10, first aerial sliding operation 20 and the second touch-control slide 30, generate and perform the second steering order.In the present embodiment due on the basis of the first touch-control slide and the operation of the first aerial sliding, further increase again the second touch-control slide, to further increase action type.As in Fig. 5, when a file will be moved to B position from the A position of touching display screen 500, suppose it is in the touch-control class of electronic devices of some large touch screens, as in many people interactive device of 1 meter * 1.5 meters, by the method in the present embodiment, user is only with position file being dragged to the first last contact point 101 from A position at touching display screen 500, then just gesture motion can be passed through, directly slide from the superjacent air space of touching display screen 500 and drop on the position of the second last contact point 102, last again by dragging a bit of distance arrival B position at touching display screen 500, user only needs the contact having certain distance when the first touch-control slide 10 and the second touch-control slide 30 with touching display screen 500, and not be used in whole process and all keep finger to contact all the time with touching display screen 500 dragging to B position continuously from A position always, like this, would not cause this long segment distance from A position to B position due to user point have left touching display screen 500 because of carelessness and cause touch operate leak source, thus cause the situation of this drag operation failure to occur.

Visible, in the embodiment of the present application owing to adopting touch-control slide to operate the technological means of the action type combined with aerial sliding in the touch-control class of electronic devices of giant-screen, achieve when user on touching display screen when operating at a distance, do not need finger to contact with touching display screen always, reduce the possibility of maloperation, and improve the Experience Degree of user.

Further, described based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order, specifically comprising:

Detect the sliding time that described first aerial sliding operates in described touch-display unit superjacent air space;

Judge that whether described sliding time is more than a Preset Time;

When not exceeding described Preset Time, based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

In specific implementation process, point in the process of carrying out the first aerial sliding operation may to spiral above touching display screen and long-time and touch-display unit does not have the second last contact point always to solve user further, therefore, in a upper embodiment, the mode obtaining the second touch-control slide can also be defined as further, when detecting that user is when carrying out the first aerial sliding operation, just detect the sliding time of this operation simultaneously and judge, if sliding time has exceeded one section of Preset Time, then represent that this operation is invalid, system only responds the first touch-control slide, generate corresponding steering order, and and respond first aerial sliding operation, certainly, more can not respond the second touch-control slide, such as, can set Preset Time in the giant-screen touch-control class of electronic devices of 1 meter * 1.5 meters is 3 seconds.If the first aerial sliding operates skyborne sliding time do not exceed Preset Time, then continue detection second touch-control slide, and based on detecting the first touch-control slide acquired, the first aerial sliding operates the second touch-control slide, generates and performs the second steering order.

Further, described based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order, specifically comprising:

Obtain the second touch trajectory of described second touch-control slide;

Obtain the second angle value formed between the direction of described first touch trajectory and the direction of described second touch trajectory;

Based on described second angle value, generate and perform the second steering order.

In specific implementation process, with introduce before when only having the first touch-control slide and the first aerial sliding to operate, can determine that the type of the touch command that will generate is the same according to being formed between the direction of the two the first angle value, here, when there being the first touch-control slide, when the first aerial sliding operation and the second touch-control slide 3 operation, also can by judging angle value to confirm.The second angle value between the present embodiment mainly provides according to the direction of the direction of corresponding first touch trajectory of the first touch-control slide and the second touch trajectory corresponding to the second touch-control slide generates the second steering order, as in Fig. 5, though first sliding trace of the first aerial sliding operation corresponding to 20 aloft how around, as long as the direction of the second touch trajectory that the direction of corresponding first touch trajectory of the first touch-control slide 10 is corresponding with the second touch-control slide 30, the second angle value on vector is within the scope of 0 ~ 90 degree, system can be thought and respond with the first touch trajectory as starting point, until the courses of action being terminal with the second touch trajectory, thus generate the second steering order.

Further, described step S2, is specially:

Detected by the wide-angle camera of described electronic equipment and obtain described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space.

Further, described step S2, specifically comprises:

Detect in described touch-display unit with the described first last contact point for starting point and produce inductance change track;

Obtain with the described first last contact point as starting point is in the first aerial sliding operation of described touch-display unit superjacent air space based on described track.

In specific implementation process, in the embodiment of the present application, the mode of detection first aerial sliding operation is not specifically limited, those skilled in the art specifically can set and detect the gesture of user or the posture of other operating bodies by the wide-angle camera in electronic equipment, thus obtain the track of the first aerial sliding operation.Certainly, also can be obtained the reaction of inductance by touching display screen, such as, when the hand of user can cause the inductance on screen to change above touching display screen within the scope of certain distance, by obtaining the track of inductance change, i.e. the first sliding trace, the first aerial sliding operation just can be obtained.Also such as, the first aerial sliding operation is obtained by the infrared induction of touch screen.

Based on same inventive concept, the embodiment of the present application also provides a kind of electronic equipment, and described electronic equipment comprises a touch-display unit, and as shown in Figure 6, described electronic equipment also comprises:

First touch control operation obtains unit 10, for obtaining the first touch-control slide of an operating body in described touch-display unit and the first last contact point of described first touch-control slide in described touch-display unit;

First aerial operation obtains unit 20, obtains described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space for detecting;

First generation unit 30, for based on described first touch-control slide and described first aerial sliding operation, generates and performs the first steering order.

According to above to the description of the method for the information processing that the application provides, above-mentioned electronic equipment is used for realizing said method, so the course of work of this electronic equipment is consistent with one or more embodiments of said method, has not just repeated one by one at this.

Further, described first generation unit 30, specifically comprises:

First track obtaining unit, for obtaining the first touch trajectory of described first touch-control slide, and obtains the first sliding trace of described first aerial sliding operation;

First generates subelement, for based on described first touch trajectory and described first sliding trace, generates and performs the first steering order.

Further, described first generates subelement 30, specifically comprises:

First angle obtains unit, for obtaining the first angle value formed between the direction of described first touch trajectory and the direction of described first sliding trace;

First instruction generation unit, for based on described first angle value, generates and performs the first steering order.

Further, described electronic equipment also comprises:

Contact point obtains unit, drops on the second last contact point in described touch-display unit for obtaining described first aerial sliding operation;

Second touch control operation obtains unit, obtains described operating body with the described second last contact point for the second touch-control slide of starting point in described touch-display unit for detecting;

Second generation unit, for based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

Further, described second generation unit, specifically comprises:

Time detecting unit, operates in the sliding time of described touch-display unit superjacent air space for detecting described first aerial sliding;

Judging unit, for judging that whether described sliding time is more than a Preset Time;

Second generates subelement, and for when not exceeding described Preset Time, based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and perform the second steering order.

Further, described second generation unit, specifically comprises:

Second track obtaining unit, for obtaining the second touch trajectory of described second touch-control slide;

Second angle obtains unit, for obtaining the second angle value formed between the direction of described first touch trajectory and the direction of described second touch trajectory;

Second instruction generation unit, for based on described second angle value, generates and performs the second steering order.

Further, described first aerial operation obtains unit and is specially wide-angle camera.

Further, described first aerial operation obtains unit, specifically comprises:

Inductance track obtaining unit, for detect in described touch-display unit with the described first last contact point for starting point and produce inductance change track;

First aerial operation obtains subelement, for obtaining based on described track with the described first last contact point as starting point is in the first aerial sliding operation of described touch-display unit superjacent air space.

The one or more technical schemes provided in the embodiment of the present application, at least have following technique effect or advantage:

(1) due in the embodiment of the present application, adopt in touch-control class of electronic devices, obtain a touch-control slide and an operation of the aerial sliding at touch screen superjacent air space, wherein, aerial sliding operation with last contact point on touch screen of touch-control slide for starting point, thus an integrated operation is used as in two operations responds, generate and perform the technological means of the steering order corresponding with this integrated operation, solve the technical matters that the mode of operation of the response user that existing touch-control class of electronic devices exists is single, achieve as touch-control class of electronic devices provides a kind of new response mode, thus the technique effect of more action type can be responded.

(2) due in the embodiment of the present application, adopt and detect the touch control operation of user on the touch screen of touch-control class of electronic devices simultaneously, and based on touch control operation, be extended to the slide in touch screen superjacent air space, and the technological means of different steering orders is generated according to the different tracks of two operations, achieve the action type adding user and touch-control class of electronic devices is carried out, eliminate the technique effect that touch control operation type that electronic equipment can respond is single.

(3) due in the embodiment of the present application, in the touch-control class of electronic devices of giant-screen, adopt touch-control slide to operate the technological means of the action type combined with aerial sliding, achieve when user on touching display screen when operating at a distance, do not need finger to contact with touching display screen always, reduce the possibility of maloperation, and improve the Experience Degree of user.

Those skilled in the art should understand, embodiments of the invention can be provided as method, system or computer program.Therefore, the present invention can adopt the form of complete hardware embodiment, completely software implementation or the embodiment in conjunction with software and hardware aspect.And the present invention can adopt in one or more form wherein including the upper computer program implemented of computer-usable storage medium (including but not limited to magnetic disk memory, CD-ROM, optical memory etc.) of computer usable program code.

The present invention describes with reference to according to the process flow diagram of the method for the embodiment of the present invention, equipment (system) and computer program and/or block scheme.Should understand can by the combination of the flow process in each flow process in computer program instructions realization flow figure and/or block scheme and/or square frame and process flow diagram and/or block scheme and/or square frame.These computer program instructions can being provided to the processor of multi-purpose computer, special purpose computer, Embedded Processor or other programmable data processing device to produce a machine, making the instruction performed by the processor of computing machine or other programmable data processing device produce device for realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be stored in can in the computer-readable memory that works in a specific way of vectoring computer or other programmable data processing device, the instruction making to be stored in this computer-readable memory produces the manufacture comprising command device, and this command device realizes the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

These computer program instructions also can be loaded in computing machine or other programmable data processing device, make on computing machine or other programmable devices, to perform sequence of operations step to produce computer implemented process, thus the instruction performed on computing machine or other programmable devices is provided for the step realizing the function of specifying in process flow diagram flow process or multiple flow process and/or block scheme square frame or multiple square frame.

Specifically, the computer program instructions that the method for the information processing in the embodiment of the present application is corresponding can be stored in CD, hard disk, on the storage mediums such as USB flash disk, read by an electronic equipment when the computer program instructions corresponding with information processing method in storage medium or when being performed, comprise the steps:

Obtain the first touch-control slide of an operating body in described touch-display unit and the first last contact point of described first touch-control slide in described touch-display unit; Detect and obtain described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space; Based on described first touch-control slide and described first aerial sliding operation, generate and perform the first steering order.

Further, described based on described first touch-control slide and described first aerial sliding operation, generate and perform the first steering order, specifically comprising: the first touch trajectory obtaining described first touch-control slide, and obtaining the first sliding trace of described first aerial sliding operation; Based on described first touch trajectory and described first sliding trace, generate and perform the first steering order.

Further, described based on described first touch trajectory and described first sliding trace, generate and perform the first steering order, specifically comprising: obtaining the first angle value formed between the direction of described first touch trajectory and the direction of described first sliding trace; Based on described first angle value, generate and perform the first steering order.

Further, obtain described operating body with the described first last contact point for starting point is after the first aerial sliding operation of described touch control unit superjacent air space described detection, described method also comprises: obtain described first aerial sliding operation and drop on the second last contact point in described touch-display unit; Detect and obtain described operating body with the described second last contact point for the second touch-control slide of starting point in described touch-display unit; Based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

Further, described based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order, specifically comprising: detecting the sliding time that described first aerial sliding operates in described touch-display unit superjacent air space; Judge that whether described sliding time is more than a Preset Time; When not exceeding described Preset Time, based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

Further, described based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order, specifically comprising: the second touch trajectory obtaining described second touch-control slide; Obtain the second angle value formed between the direction of described first touch trajectory and the direction of described second touch trajectory; Based on described second angle value, generate and perform the second steering order.

Further, the described described operating body of acquisition that detects operates for first aerial sliding of starting point at described touch-display unit superjacent air space with the described first last contact point, is specially: detected by the wide-angle camera of described electronic equipment and obtain described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space.

Further, described detection obtains described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space, specifically comprises: to detect in described touch-display unit with the described first last contact point as starting point and track that the inductance that produces changes; Obtain with the described first last contact point as starting point is in the first aerial sliding operation of described touch-display unit superjacent air space based on described track.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

Obviously, those skilled in the art can carry out various change and modification to the present invention and not depart from the spirit and scope of the present invention.Like this, if these amendments of the present invention and modification belong within the scope of the claims in the present invention and equivalent technologies thereof, then the present invention is also intended to comprise these change and modification.

Claims (16)

1. a method for information processing, is applied to an electronic equipment, and described electronic equipment comprises a touch-display unit, and described method comprises:

Obtain the first touch-control slide of an operating body in described touch-display unit and the first last contact point of described first touch-control slide in described touch-display unit;

Detect and obtain described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space;

Based on described first touch-control slide and described first aerial sliding operation, generate and perform the first steering order.

2. the method for claim 1, is characterized in that, described based on described first touch-control slide and described first aerial sliding operation, generates and performs the first steering order, specifically comprising:

Obtain the first touch trajectory of described first touch-control slide, and obtain the first sliding trace of described first aerial sliding operation;

Based on described first touch trajectory and described first sliding trace, generate and perform the first steering order.

3. method as claimed in claim 2, is characterized in that, described based on described first touch trajectory and described first sliding trace, generates and performs the first steering order, specifically comprising:

Obtain the first angle value formed between the direction of described first touch trajectory and the direction of described first sliding trace;

Based on described first angle value, generate and perform the first steering order.

4. the method for claim 1, is characterized in that, obtain described operating body with the described first last contact point for starting point is after the first aerial sliding operation of described touch control unit superjacent air space described detection, described method also comprises:

Obtain described first aerial sliding operation and drop on the second last contact point in described touch-display unit;

Detect and obtain described operating body with the described second last contact point for the second touch-control slide of starting point in described touch-display unit;

Based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

5. method as claimed in claim 4, is characterized in that, described based on described first touch-control slide, and described first aerial sliding operation and described second touch-control slide, generates and perform the second steering order, specifically comprising:

Detect the sliding time that described first aerial sliding operates in described touch-display unit superjacent air space;

Judge that whether described sliding time is more than a Preset Time;

When not exceeding described Preset Time, based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

6. the method as described in claim 4 or 5, is characterized in that, described based on described first touch-control slide, and described first aerial sliding operation and described second touch-control slide, generates and perform the second steering order, specifically comprising:

Obtain the second touch trajectory of described second touch-control slide;

Obtain the second angle value formed between the direction of described first touch trajectory and the direction of described second touch trajectory;

Based on described second angle value, generate and perform the second steering order.

7. the method as described in claim arbitrary in claim 1-5, is characterized in that, the described described operating body of acquisition that detects operates for first aerial sliding of starting point at described touch-display unit superjacent air space with the described first last contact point, is specially:

Detected by the wide-angle camera of described electronic equipment and obtain described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space.

8. the method as described in claim arbitrary in claim 1-5, is characterized in that, the described described operating body of acquisition that detects operates for first aerial sliding of starting point at described touch-display unit superjacent air space with the described first last contact point, specifically comprises:

Detect in described touch-display unit with the described first last contact point for starting point and produce inductance change track;

Obtain with the described first last contact point as starting point is in the first aerial sliding operation of described touch-display unit superjacent air space based on described track.

9. an electronic equipment, described electronic equipment comprises a touch-display unit, and described electronic equipment also comprises:

First touch control operation obtains unit, for obtaining the first touch-control slide of an operating body in described touch-display unit and the first last contact point of described first touch-control slide in described touch-display unit;

First aerial operation obtains unit, obtains described operating body with the described first last contact point for starting point is in the first aerial sliding operation of described touch-display unit superjacent air space for detecting;

First generation unit, for based on described first touch-control slide and described first aerial sliding operation, generates and performs the first steering order.

10. electronic equipment as claimed in claim 9, it is characterized in that, described first generation unit, specifically comprises:

First track obtaining unit, for obtaining the first touch trajectory of described first touch-control slide, and obtains the first sliding trace of described first aerial sliding operation;

First generates subelement, for based on described first touch trajectory and described first sliding trace, generates and performs the first steering order.

11. electronic equipments as claimed in claim 10, is characterized in that, described first generates subelement, specifically comprises:

First angle obtains unit, for obtaining the first angle value formed between the direction of described first touch trajectory and the direction of described first sliding trace;

First instruction generation unit, for based on described first angle value, generates and performs the first steering order.

12. electronic equipments as claimed in claim 9, it is characterized in that, described electronic equipment also comprises:

Contact point obtains unit, drops on the second last contact point in described touch-display unit for obtaining described first aerial sliding operation;

Second touch control operation obtains unit, obtains described operating body with the described second last contact point for the second touch-control slide of starting point in described touch-display unit for detecting;

Second generation unit, for based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and performs the second steering order.

13. electronic equipments as claimed in claim 12, it is characterized in that, described second generation unit, specifically comprises:

Time detecting unit, operates in the sliding time of described touch-display unit superjacent air space for detecting described first aerial sliding;

Judging unit, for judging that whether described sliding time is more than a Preset Time;

Second generates subelement, and for when not exceeding described Preset Time, based on described first touch-control slide, described first aerial sliding operation and described second touch-control slide, generates and perform the second steering order.

14. electronic equipments as claimed in claim 12, it is characterized in that, described second generation unit, specifically comprises:

Second track obtaining unit, for obtaining the second touch trajectory of described second touch-control slide;

Second angle obtains unit, for obtaining the second angle value formed between the direction of described first touch trajectory and the direction of described second touch trajectory;

Second instruction generation unit, for based on described second angle value, generates and performs the second steering order.

15. electronic equipments as described in claim arbitrary in claim 9-14, is characterized in that, described first aerial operation obtains unit and is specially wide-angle camera.

16. electronic equipments as described in claim arbitrary in claim 9-14, is characterized in that, described first aerial operation obtains unit, specifically comprises:

Inductance track obtaining unit, for detect in described touch-display unit with the described first last contact point for starting point and produce inductance change track;

First aerial operation obtains subelement, for obtaining based on described track with the described first last contact point as starting point is in the first aerial sliding operation of described touch-display unit superjacent air space.