CN103777743A - Information processing method and electronic device - Google Patents

Abstract

The invention discloses an information processing method and an electronic device. The information processing method is applied to the electronic device with a touch display unit. The method includes acquiring a first image corresponding to a first display interface of the touch display unit when detecting that touch operation is conducted on the surface of the touch display unit; acquiring first parameter information of the first image; at least dividing the first display interface of the touch display unit into a first area and a second area based on the first parameter information; executing first touch feedback when the touch operation is detected in the first area; executing second touch feedback when the touch operation is detected in the second area.

Description

A kind of method of information processing and electronic equipment

Technical field

The present invention relates to areas of information technology, particularly a kind of method of information processing and electronic equipment.

Background technology

Along with the development of global IT application technology, increasing electronic equipment appears in people's life, such as: mobile phone, notebook computer, all-in-one etc.Wherein a lot of electronic equipments all include touch screen, and this touch screen can respond user's various operations, such as: click, double-click, slide etc., and then produce different steering orders.

In the prior art, in the time that user's finger carries out touch control operation on this touch screen, can give touch-control feedback of finger of user, such as: user's finger can be experienced concavo-convex sense of touch, in prior art, as shown in Figure 1, conventionally can realize in the following way touch-control feedback:

S101: the zones of different of corresponding electronic equipment touch screen in advance, arranges different sense of touch parameters;

S102: corresponding different sense of touch parameter arranges different feedback parameters;

S103: while there is touch control operation in described touch screen first area, based on the corresponding feedback parameter in first area, give and use the user of this electronic equipment to produce a touch-control feedback.

Present inventor is realizing in the process of the embodiment of the present application technical scheme, at least finds to exist in prior art following technical matters:

(1) due in the prior art, touch-control feedback on the touch screen of realizing electronic equipment, can only determine which region exists touch-control feedback by the parameter setting in advance, and be to produce tactile feedback for the region of whole setting, and the region that can not be only point institute's touch-control for user produces tactile feedback, so exist the larger technical matters of energy consumption when touch control operation is fed back;

(2) again because the shown image of touch screen is to change, and in present technology, can not produce different tactile feedback by corresponding different image, so exist the accurate not technical matters of feedback.

Summary of the invention

The embodiment of the present invention provides a kind of information processing method and electronic equipment, for solving prior art larger technical matters of energy consumption in the time that touch control operation is fed back.

On the one hand, the application one embodiment provides following technical scheme:

A method for information processing, described method is applied in one and comprises that, in the electronic equipment of touch-display unit, described method comprises:

In the time detecting that described touch-display unit surface exists touch control operation, obtain first image corresponding with the first display interface of described touch-display unit;

Obtain the first parameter information of described the first image;

Based on described the first parameter information, the first display interface of described touch-display unit is at least divided into first area and second area;

In the time that described first area detects touch control operation, carry out the first touch-control feedback;

In the time that described second area detects touch control operation, carry out the second touch-control feedback.

Optionally, described in obtain the first parameter information of described the first image, be specially:

Obtain the first colouring information of each pixel in the picture element matrix of described the first image.

Optionally, described in obtain the first colouring information of each pixel in the picture element matrix of described the first image, be specially:

In the display buffer of described electronic equipment, obtain and be timed described the first colouring information refreshing.

Optionally, described the first display interface, is specially: whole display interfaces of described touch-display unit; Or the part display interface of described touch-display unit.

Optionally, describedly based on described the first parameter information, the first display interface of described touch-display unit is at least divided into first area and second area, specifically comprises:

Based on described the first parameter, described the first image is carried out to embossment computing, obtain the first camegraph and the first camegraph parameter;

Determine the second colouring information of each pixel in the picture element matrix of described the first camegraph based on described the first camegraph parameter;

Based on described the second colouring information, described the first display interface is at least divided into first area and second area.

Optionally, describedly based on described the second colouring information, described the first display interface is at least divided into first area and second area, specifically comprises:

Described the first display interface is divided into N and shows sub-interface, wherein, N is more than or equal to 2 integer;

Get successively i and be 1 to N integer, judge whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets first pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described first when pre-conditioned, be described first area by described i the sub-boundary division of demonstration; And

Get successively i and be 1 to N integer, judge whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets second pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described second when pre-conditioned, be described second area by described i the sub-boundary division of demonstration.

Optionally, described the second colouring information is specially: half-tone information or brightness information.

Optionally, described in the time that described first area detects touch control operation, carry out the first touch-control feedback, specifically comprise:

In the time that described first area detects described touch control operation, produce the first steering order;

Carry out described the first steering order, to produce the first touch-control feedback information.

Optionally, described the first touch-control feedback information, is specially: the feedback system that adopts the first parameter to carry out linear motor vibrations; Or

According to the first preset rules adjust the first area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

Optionally, described in the time that described second area detects touch control operation, carry out the second touch-control feedback, specifically comprise:

In the time that described second area detects described touch control operation, produce the second steering order;

Carry out described the second steering order, to produce the second touch-control feedback information.

Optionally, described the second touch-control feedback information, is specially: the feedback system that adopts the second parameter to carry out linear motor vibrations; Or

According to the second preset rules adjust the second area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

On the other hand, another embodiment of the application provides following technical scheme:

A kind of electronic equipment, described electronic equipment comprises a touch-display unit, described electronic equipment also comprises:

First obtains module, in the time detecting that described touch-display unit surface exists touch control operation, obtains first image corresponding with the first display interface of described touch-display unit;

Second obtains module, for obtaining the first parameter information of described the first image;

Discriminating module, at least dividing into first area and second area based on described the first parameter information by the first display interface of described touch-display unit;

The first execution module, in the time that described first area detects touch control operation, carries out the first touch-control feedback;

The second execution module, in the time that described second area detects touch control operation, carries out the second touch-control feedback.

Optionally, described second obtains module, specifically for:

Obtain the first colouring information of each pixel in the picture element matrix of described the first image.

Optionally, described second obtains module, specifically for:

In the display buffer of described electronic equipment, obtain and be timed described the first colouring information refreshing.

Optionally, described the first display interface, is specially: whole display interfaces of described touch-display unit; Or the part display interface of described touch-display unit.

Optionally, described discriminating module, specifically comprises:

Obtain unit, for based on described the first parameter, described the first image being carried out to embossment computing, obtain the first camegraph and the first camegraph parameter;

Determining unit, for determining the second colouring information of each pixel of the picture element matrix of described the first camegraph based on described the first camegraph parameter;

Discrimination unit, at least dividing into first area and second area based on described the second colouring information by described the first display interface.

Optionally, described discrimination unit, specifically comprises:

Divide subelement, show sub-interface for described the first display interface being divided into N, wherein, N is more than or equal to 2 integer;

Judgment sub-unit, is 1 to N integer for getting successively i, judges whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets first pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described first when pre-conditioned, be described first area by described i the sub-boundary division of demonstration; And

Get successively i and be 1 to N integer, judge whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets second pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described second when pre-conditioned, be described second area by described i the sub-boundary division of demonstration.

Optionally, described the second colouring information is specially: half-tone information or brightness information.

Optionally, described the first execution module, specifically comprises:

The first generation unit, in the time that described first area detects described touch control operation, produces the first steering order;

The first performance element, for carrying out described the first steering order, to produce the first touch-control feedback information.

Optionally, described the first touch-control feedback information, is specially: the feedback system that adopts the first parameter to carry out linear motor vibrations; Or

According to the first preset rules adjust the first area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

Optionally, described the second execution module, specifically comprises:

The second generation unit, in the time that described second area detects described touch control operation, produces the second steering order;

The second performance element, for carrying out described the second steering order, to produce the second touch-control feedback information.

Optionally, described the second touch-control feedback information, is specially: the feedback system that adopts the second parameter to carry out linear motor vibrations; Or

According to the second preset rules adjust the second area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

The one or more technical schemes that provide 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 the time detecting that touch-display unit exists touch control operation, detect corresponding the first image of described touch control operation, and then described touch-display unit is divided at least two regions by a parameter information based on described the first image, thereby the region difference based on touch control operation place, produce the technical scheme of different touch-control feedbacks, namely only produce touch-control feedback to carrying out the region of touch control operation, so solved the larger technical matters of energy consumption when touch control operation feedback in prior art; Reach the technique effect that reduces energy consumption;

(2) due in the embodiment of the present application, adopt and in the display buffer of described electronic equipment, obtained the technical scheme that is timed described the first colouring information refreshing, namely for the difference of the first shown image of touch-display unit, its region of dividing is also different, and then the touch-control producing feedback is also different, so solved the accurate not technical matters of touch-control feedback in prior art, and then reached the more accurate technique effect of feedback.

(3) due in the embodiment of the present application, adopt described the first image has been carried out to embossment computing, and then obtain the second colouring information of described the first image, then based on described the second colouring information, described the first display interface is divided into the technical scheme of first area and second area, wherein, because described the second colouring information is shading value or half-tone information, so reached the technique effect that can conveniently described the first viewing area be divided into depression visual zone and protruding visual zone.

(4) due in the embodiment of the present application, adopt the technical scheme that shakes and then realize the concavo-convex sense of touch of touch-display unit by the linear motor of different parameters, and the setting of linear motor and realization are all comparatively simple, so reached easy to operate technique effect.

(5) due in the embodiment of the present application, can also adopt in touch-display unit bottom dot matrix is set, and then adjust the height of the zones of different of touch-display unit by dot matrix, and then realize the technical scheme of the concavo-convex sense of touch of touch-display unit, so reached the more diversified technique effect of mode of realizing the concavo-convex sense of touch of touch-display unit.

Accompanying drawing explanation

Fig. 1 is the process flow diagram of carrying out touch-control feedback in prior art;

Fig. 2 is the process flow diagram of the method for information processing in the embodiment of the present application one;

Fig. 3 is the process flow diagram that in the embodiment of the present application one, described the first display interface is at least divided into first area and second area;

Fig. 4 is the process flow diagram of carrying out the first touch-control feedback in the embodiment of the present application one;

Fig. 5 is the process flow diagram of carrying out the second touch-control feedback in the embodiment of the present application two;

Fig. 6 is the block scheme of electronic equipment in the embodiment of the present application three.

Embodiment

The embodiment of the present invention provides a kind of information processing method and electronic equipment, for solving prior art larger technical matters of energy consumption in the time that touch control operation is fed back.

Technical scheme in the embodiment of the present application is to solve above-mentioned technical matters, and general thought is as follows:

In the time that the touch-display unit surface that electronic equipment detected exists touch control operation, obtain first image corresponding with the first display interface of described touch-display unit; Then the first display interface of described touch-display unit is at least distinguished two regions by the first parameter information based on described the first image, and the then zones of different based on touch control operation place produces different touch-control feedbacks.

While carrying out touch-control feedback due to employing such scheme, only produce touch-control feedback for touch control operation region, feed back and need not produce touch-control to whole region, so reached the technique effect of saving energy consumption.

In order better to understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme is described in detail.

Embodiment mono-

The embodiment of the present application one provides a kind of method of information processing, and described method is applied in an electronic equipment that comprises touch-display unit, and described electronic equipment is for example: notebook computer, mobile phone, panel computer etc.; Described touch-display unit is for example: glass touch screen, flexible touch screen etc. are which kind of touch-display unit which kind of electronic equipment and described touch-display unit are for described electronic equipment, and the application no longer itemizes and is not restricted.

Please refer to Fig. 2, the method for described information processing comprises the steps:

Step S201: in the time detecting that described touch-display unit surface exists touch control operation, obtain first image corresponding with the first display interface of described touch-display unit;

Step S202: the first parameter information that obtains described the first image;

Step S203: the first display interface of described touch-display unit is at least divided into first area and second area based on described the first parameter information;

Step S204a: in the time that described first area detects touch control operation, carry out the first touch-control feedback;

Step S204b: in the time that described second area detects touch control operation, carry out the second touch-control feedback.

Wherein, in step S201, described touch control operation is for example: single-click operation, double click operation, slide etc.

Described the first display interface can be whole display interfaces of described touch-display unit, and so, its corresponding first image is exactly the shown whole image in described touch-display unit surface; And described the first display interface also can make the part display interface of described touch-display unit, its corresponding first image is exactly the shown parts of images of described touch-display unit so, such as a shown player of the first area of: described touch-display unit, a pictures etc.

Wherein, in step S202, described in obtain the first parameter information of described the first image, be specially:

Obtain the first colouring information of each pixel in the picture element matrix of described the first image.

In specific implementation process, an image is all multiple pixel compositions, each pixel includes colouring information, and described colouring information can be divided into multiple situation, for example: with R(redness), G(green), B(blueness) three represented colouring informations of Color Channel; With luminance channel L and two colouring informations that color channel a, b are represented; Or only with represented colouring information of brightness etc.

In addition, described in obtain the first colouring information of each pixel in the picture element matrix of described the first image, be specially:

In the display buffer of described electronic equipment, obtain and be timed described the first colouring information refreshing.

In specific implementation process, described the first colouring information is stored in the display buffer of described electronic equipment, because the first image that described the first display interface is shown is unfixing, so can also be every Preset Time interval, such as: 10s, 20s etc., just again obtain corresponding the first image of described the first display interface, and then the first colouring information of storing in described display buffer is upgraded.

As seen from the above description, due in the embodiment of the present application, adopt and in the display buffer of described electronic equipment, obtained the technical scheme that is timed described the first colouring information refreshing, namely for the difference of the first shown image of touch-display unit, its region of dividing is also different, and then the touch-control producing feedback is also different, so solved the accurate not technical matters of touch-control feedback in prior art, and then reached the more accurate technique effect of feedback.

Wherein, in step S203, described the first display interface is at least divided into the process of first area and second area, please refer to Fig. 3, can comprise the steps: again

Step S301: based on described the first parameter, described the first image is carried out to embossment computing, obtain the first camegraph and the first camegraph parameter;

Step S302: the second colouring information of determining each pixel in the picture element matrix of described the first camegraph based on described the first camegraph parameter;

Step S303: described the first display interface is at least divided into first area and second area based on described the second colouring information.

Under normal circumstances, after described the first image is carried out to embossment computing, its colouring information will change, and become the second colouring information from the first colouring information.Wherein, described the first colouring information comprises form and aspect information, brightness information and saturation infromation, and the second colouring information is generally half-tone information or brightness information.Wherein, the half-tone information based on different or brightness information, described the first image will present a kind of concavo-convex display effect.

So, can described the first viewing area be divided into first area and second area based on described half-tone information or brightness information, for example: described first area is the region with depression vision, and described second area is the region with protruding vision, certainly, also can comprise other regions, the application is not restricted.

Wherein, based on described the second colouring information, described the first display interface is at least divided into first area and second area, specifically comprises:

Described the first display interface is divided into N and shows sub-interface, wherein, N is more than or equal to 2 integer;

Get successively i and be 1 to N integer, judge whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets first pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described first when pre-conditioned, be described first area by described i the sub-boundary division of demonstration; And

Get successively i and be 1 to N integer, judge whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets second pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described second when pre-conditioned, be described second area by described i the sub-boundary division of demonstration.

Specifically, namely described the first display interface is divided into multiple demonstration subregions, each demonstration subregion includes the second colouring information of its correspondence.

Wherein, described first pre-conditionedly can be: whether the brightness value in the corresponding brightness information of described the second colouring information or half-tone information is greater than the first predetermined threshold value, the brightness of supposing image is divided into: 0 ~ 255, wherein, if brightness value is greater than the first predetermined threshold value, such as: 160,170 etc., certainly can be also other arbitrary value, so,, it will show a depression effect individual the first embossment subimage of described i, and then is divided to first area.

Wherein, described second pre-conditionedly can be: whether the brightness value in the corresponding brightness information of described the second colouring information or half-tone information is less than the second predetermined threshold value, or be divided into take the brightness of image: 0 ~ 255 is example, wherein, if brightness value is less than described the second predetermined threshold value, such as: 80,90 etc., certainly can be also other arbitrary value, so,, it will show a relief individual the first embossment subimage of described i, and then is divided to second area.

As seen from the above description, due in the embodiment of the present application, adopt described the first image has been carried out to embossment computing, and then obtain the second colouring information of described the first image, then based on described the second colouring information, described the first display interface is divided into the technical scheme of first area and second area, wherein, because described the second colouring information is shading value or half-tone information, so reached the technique effect that can conveniently described the first viewing area be divided into depression visual zone and protruding visual zone.

Wherein, please refer to Fig. 4, step S204a specifically comprises the steps: again

Step S401: in the time that described first area detects described touch control operation, produce the first steering order;

Step S402: carry out described the first steering order, to produce the first touch-control feedback information.

Wherein, in specific implementation process, described the first touch-control feedback information can adopt various ways to produce, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, are not limited to following two kinds of situations.

The first, the feedback system that adopts the first parameter to carry out linear motor vibrations.

In specific implementation process, parameter when described linear motor vibrations can be: the vibrations dynamics of described linear motor, vibrations quantity of linear motor etc.For example: the first vibrations dynamics of employing is carried out linear motor vibrations, adopted the linear motor of the first quantity to shake etc.Based on the difference of described the first parameter, the user who carries out described touch control operation will produce different senses of touch, such as: producing depression sense of touch, may be also other sense of touch certainly.

The second, according to the first preset rules adjust the first area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

In specific implementation process, described touch-display unit may be flexible touch-display unit, and described flexible touch-display unit is divided into the sub-interface of multiple demonstrations; Or described touch-display unit is glass touch-display unit, but described glass touch-display unit is made up of the sub-interface of multiple demonstrations.Wherein, be provided with a dot matrix in described touch-display unit bottom, in dot matrix, every sub-dot matrix corresponding shows sub-interface, just can adjust the demonstration height at the demonstration sub-interface corresponding with described sub-dot matrix based on described sub-dot matrix.For example: if the demonstration height that shows sub-interface lower than the demonstration height that there is no the sub-interface of controlled demonstration, carries out the user's of touch control operation finger while carrying out touch control operation so, just have depression sense of touch.

Wherein, please refer to Fig. 5, described step S204b specifically comprises the steps: again

Step S501: in the time that described second area detects described touch control operation, produce the second steering order;

Step S502: carry out described the second steering order, to produce the second touch-control feedback information.

Wherein, in specific implementation process, described the second touch-control feedback information can adopt various ways to produce, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, are not limited to following two kinds of situations.

The first, the feedback system that adopts the second parameter to carry out linear motor vibrations.

For example: the second vibrations dynamics of employing is carried out linear motor vibrations, adopted the linear motor of the second quantity to shake etc.Based on the difference of described the second parameter, carry out the user's of touch control operation also difference of sense of touch, for example: being ridge tactile, can certainly be other senses of touch.

The second, according to the second preset rules adjust the second area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

In specific implementation process, described touch-display unit can be made up of the sub-interface of multiple demonstrations, and wherein, the sub-dot matrix arranging based on bottom, the sub-interface of described demonstration just can be adjusted the demonstration height at the demonstration sub-interface corresponding with described sub-dot matrix.For example: if the demonstration height that shows sub-interface higher than the demonstration height that there is no the sub-interface of controlled demonstration, carries out the user's of touch control operation finger while carrying out touch control operation so, just have ridge tactile.

As seen from the above description, due in the embodiment of the present application, adopted the technical scheme that shakes and then realize the concavo-convex sense of touch of touch-display unit by the linear motor of different parameters, and the setting of linear motor and realization are all comparatively simple, so reached easy to operate technique effect.

And, again due in the embodiment of the present application, can also adopt in touch-display unit bottom dot matrix is set, and then adjust the height of the zones of different of touch-display unit by dot matrix, and then realize the technical scheme of the concavo-convex sense of touch of touch-display unit, so reached the more diversified technique effect of mode of realizing the concavo-convex sense of touch of touch-display unit.

Embodiment bis-

In order to make those skilled in the art can connect the specific implementation process of the method for the information processing of introducing in the embodiment of the present application, in the present embodiment, will stand in the detailed annotation of user's side and introduce the specific implementation process of the method for this information processing.Wherein, take described electronic equipment as panel computer, described the first touch control operation region is as first area as example is introduced.

In the T1 moment, user A uses the video player of this panel computer to play one section of video.

In the T2 moment, user A carries out the first touch control operation to the touch screen of described panel computer, to drag the progress bar of described video player and then to carry out forwarding operation, after described panel computer detects described the first touch control operation, just obtain the first image of the first display interface of described touch screen, suppose the display interface that described the first display interface is described player, so, described the first image is exactly the corresponding image of described player;

For example, and then described panel computer obtains the first parameter information of described the first image: the tone of described the first image, saturation degree, lightness information;

After obtaining described the first parameter information, just adopt embossment algorithm to obtain described first image the first camegraph, and then obtain the second image information of described the first camegraph, such as: the brightness information of each pixel of described the first camegraph;

Based on described brightness information, described panel computer just can be divided into first area and second area the first viewing area of the touch screen of described panel computer, and wherein, described first area is the region visually with depression sense; Described second area is for visually having the region of projection sense;

After being divided into first area and second area, judge that described the first touch control operation region is positioned at described first area or described second area, finally determining described the first touch control operation region is first area, so adopt the first touch-control feedback system, specifically, the demonstration height that namely reduces the touch screen at described the first sub-interface of corresponding multiple demonstrations, touch control operation region, makes user's finger have the sense of touch of a depression like this.

Embodiment tri-

Based on same inventive concept, the embodiment of the present application three provides a kind of electronic equipment of the method for implementing the information processing that the embodiment of the present application one introduces, described electronic equipment comprises a touch-display unit, and described electronic equipment is for example: notebook computer, mobile phone, panel computer etc.; Described touch-display unit is for example: glass touch screen, flexible touch screen etc.

Please refer to Fig. 6, described electronic equipment also comprises:

First obtains module 601, in the time detecting that described touch-display unit surface exists touch control operation, obtains first image corresponding with the first display interface of described touch-display unit;

Second obtains module 602, for obtaining the first parameter information of described the first image;

Discriminating module 603, at least dividing into first area and second area based on described the first parameter information by the first display interface of described touch-display unit;

The first execution module 604, in the time that described first area detects touch control operation, carries out the first touch-control feedback;

The second execution module 605, in the time that described second area detects touch control operation, carries out the second touch-control feedback.

In specific implementation process, described first obtains module 601 in the time obtaining first image corresponding with the first display interface of described touch-display unit, and described the first display interface can be that whole display interfaces of described touch-display unit can be also the part display interfaces of described touch-display unit.

In specific implementation process, described second obtains module 602, specifically for:

Obtain the first colouring information of each pixel in the picture element matrix of described the first image.

In specific implementation process, an image is all multiple pixel compositions, each pixel includes colouring information, described colouring information can be divided into multiple situation, owing to being specially which kind of colouring information for described colouring information, in the embodiment of the present application one, be described, so do not repeat them here.

In specific implementation process, described second obtains module 602, specifically for:

In the display buffer of described electronic equipment, obtain and be timed described the first colouring information refreshing.

In specific implementation process, described the first colouring information is stored in the display buffer of described electronic equipment, because the first image that described the first display interface is shown is unfixing, so can also be every Preset Time interval, just again obtain corresponding the first image of described the first display interface, and then the first colouring information of storing in described display buffer is upgraded.

As seen from the above description, due in the embodiment of the present application, adopt and in the display buffer of described electronic equipment, obtained the technical scheme that is timed described the first colouring information refreshing, namely for the difference of the first shown image of touch-display unit, its region of dividing is also different, and then the touch-control producing feedback is also different, so solved the accurate not technical matters of touch-control feedback in prior art, and then reached the more accurate technique effect of feedback.

In specific implementation process, described discriminating module 603, specifically comprises:

Obtain unit, for based on described the first parameter, described the first image being carried out to embossment computing, obtain the first camegraph and the first camegraph parameter;

Determining unit, for determining the second colouring information of each pixel of the picture element matrix of described the first camegraph based on described the first camegraph parameter;

Discrimination unit, at least dividing into first area and second area based on described the second colouring information by described the first display interface.

Under normal circumstances, after described the first image is carried out to embossment computing, its colouring information will change, and become the second colouring information from the first colouring information.Wherein, described the first colouring information comprises form and aspect information, brightness information and saturation infromation, and the second colouring information is generally half-tone information or brightness information.Wherein, the half-tone information based on different or brightness information, described the first image will present a kind of concavo-convex display effect.

So, can described the first viewing area be divided into first area and second area based on described half-tone information or brightness information, for example: described first area is the region with depression vision, and described second area is the region with protruding vision, certainly, also can comprise other regions, the application is not restricted.

In specific implementation process, described discrimination unit, specifically comprises:

Divide subelement, show sub-interface for described the first display interface being divided into N, wherein, N is more than or equal to 2 integer;

Judgment sub-unit, is 1 to N integer for getting successively i, judges whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets first pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described first when pre-conditioned, be described first area by described i the sub-boundary division of demonstration; And

Get successively i and be 1 to N integer, judge whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets second pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described second when pre-conditioned, be described second area by described i the sub-boundary division of demonstration.

Wherein, described first pre-conditionedly can be: whether the brightness value in the corresponding brightness information of described the second colouring information or half-tone information is greater than the first predetermined threshold value;

Described second pre-conditionedly can be: whether the brightness value in the corresponding brightness information of described the second colouring information or half-tone information is less than the second predetermined threshold value.

Pre-conditioned described the first display interface is at least divided into first area and second area due to how based on described first pre-conditioned and described second, in the embodiment of the present application one, be described, so do not repeat them here.

As seen from the above description, due in the embodiment of the present application, adopt described the first image has been carried out to embossment computing, and then obtain the second colouring information of described the first image, then based on described the second colouring information, described the first display interface is divided into the technical scheme of first area and second area, wherein, because described the second colouring information is shading value or half-tone information, so reached the technique effect that can conveniently described the first viewing area be divided into depression visual zone and protruding visual zone.

In specific implementation process, described the first execution module 604, specifically comprises:

The first generation unit, in the time that described first area detects described touch control operation, produces the first steering order;

The first performance element, for carrying out described the first steering order, to produce the first touch-control feedback information.

Wherein, in specific implementation process, described the first touch-control feedback information can adopt various ways to produce, and enumerates wherein two kinds below, certainly, in specific implementation process, is not limited to following two kinds of situations.

The first, the feedback system that adopts the first parameter to carry out linear motor vibrations.

The second, according to the first preset rules adjust the first area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

Due to the specific implementation process of these two kinds of feedback systems, in the embodiment of the present application one, be described, so do not repeat them here.

In specific implementation process, described the second execution module 605, specifically comprises:

The second generation unit, in the time that described second area detects described touch control operation, produces the second steering order;

The second performance element, for carrying out described the second steering order, to produce the second touch-control feedback information.

Wherein, in specific implementation process, described the second touch-control feedback information can adopt various ways to produce, and enumerates wherein two kinds below, certainly, in specific implementation process, is not limited to following two kinds of situations.

The first, the feedback system that adopts the second parameter to carry out linear motor vibrations.

The second, according to the second preset rules adjust the second area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

Due to the specific implementation process of these two kinds of feedback systems, in the embodiment of the present application one, be described, so do not repeat them here.

As seen from the above description, due in the embodiment of the present application, adopted the technical scheme that shakes and then realize the concavo-convex sense of touch of touch-display unit by the linear motor of different parameters, and the setting of linear motor and realization are all comparatively simple, so reached easy to operate technique effect.

And, again due in the embodiment of the present application, can also adopt in touch-display unit bottom dot matrix is set, and then adjust the height of the zones of different of touch-display unit by dot matrix, and then realize the technical scheme of the concavo-convex sense of touch of touch-display unit, so reached the more diversified technique effect of mode of realizing the concavo-convex sense of touch of touch-display unit.

The electronic equipment of introducing due to the embodiment of the present application three, the electronic equipment adopting for implementing the method for the information processing in the embodiment of the present application one, so method of the information processing based on introducing in the embodiment of the present application one, the embodiment that those skilled in the art can understand the electronic equipment in the present embodiment with and various version, so introduce no longer in detail for this electronic equipment at this.As long as those skilled in the art implement the electronic equipment that method adopted of the embodiment of the present application with middle information processing, all belong to the scope of the application institute wish protection.

One or more technical schemes that the application provides, at least have following technique effect or advantage:

(1) due in the embodiment of the present application, adopt in the time detecting that touch-display unit exists touch control operation, detect corresponding the first image of described touch control operation, and then described touch-display unit is divided at least two regions by a parameter information based on described the first image, thereby the region difference based on touch control operation place, produce the technical scheme of different touch-control feedbacks, namely only produce touch-control feedback to carrying out the region of touch control operation, so solved the larger technical matters of energy consumption when touch control operation feedback in prior art; Reach the technique effect that reduces energy consumption;

(2) due in the embodiment of the present application, adopt and in the display buffer of described electronic equipment, obtained the technical scheme that is timed described the first colouring information refreshing, namely for the difference of the first shown image of touch-display unit, its region of dividing is also different, and then the touch-control producing feedback is also different, so solved the accurate not technical matters of touch-control feedback in prior art, and then reached the more accurate technique effect of feedback.

(3) due in the embodiment of the present application, adopt described the first image has been carried out to embossment computing, and then obtain the second colouring information of described the first image, then based on described the second colouring information, described the first display interface is divided into the technical scheme of first area and second area, wherein, because described the second colouring information is shading value or half-tone information, so reached the technique effect that can conveniently described the first viewing area be divided into depression visual zone and protruding visual zone.

(4) due in the embodiment of the present application, adopt the technical scheme that shakes and then realize the concavo-convex sense of touch of touch-display unit by the linear motor of different parameters, and the setting of linear motor and realization are all comparatively simple, so reached easy to operate technique effect.

(5) due in the embodiment of the present application, can also adopt in touch-display unit bottom dot matrix is set, and then adjust the height of the zones of different of touch-display unit by dot matrix, and then realize the technical scheme of the concavo-convex sense of touch of touch-display unit, so reached the more diversified technique effect of mode of realizing the concavo-convex sense of touch of touch-display unit.

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

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

Claims (22)

1. a method for information processing, described method is applied in one and comprises in the electronic equipment of touch-display unit, and it is characterized in that, described method comprises:

In the time detecting that described touch-display unit surface exists touch control operation, obtain first image corresponding with the first display interface of described touch-display unit;

Obtain the first parameter information of described the first image;

Based on described the first parameter information, the first display interface of described touch-display unit is at least divided into first area and second area;

In the time that described first area detects touch control operation, carry out the first touch-control feedback;

In the time that described second area detects touch control operation, carry out the second touch-control feedback.

2. the method for claim 1, is characterized in that, described in obtain the first parameter information of described the first image, be specially:

Obtain the first colouring information of each pixel in the picture element matrix of described the first image.

3. method as claimed in claim 2, is characterized in that, described in obtain the first colouring information of each pixel in the picture element matrix of described the first image, be specially:

In the display buffer of described electronic equipment, obtain and be timed described the first colouring information refreshing.

4. the method for claim 1, is characterized in that, described the first display interface, is specially: whole display interfaces of described touch-display unit; Or the part display interface of described touch-display unit.

5. the method for claim 1, is characterized in that, describedly based on described the first parameter information, the first display interface of described touch-display unit is at least divided into first area and second area, specifically comprises:

Based on described the first parameter, described the first image is carried out to embossment computing, obtain the first camegraph and the first camegraph parameter;

Determine the second colouring information of each pixel in the picture element matrix of described the first camegraph based on described the first camegraph parameter;

Based on described the second colouring information, described the first display interface is at least divided into first area and second area.

6. method as claimed in claim 5, is characterized in that, describedly based on described the second colouring information, described the first display interface is at least divided into first area and second area, specifically comprises:

Described the first display interface is divided into N and shows sub-interface, wherein, N is more than or equal to 2 integer;

Get successively i and be 1 to N integer, judge whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets first pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described first when pre-conditioned, be described first area by described i the sub-boundary division of demonstration; And

Get successively i and be 1 to N integer, judge whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets second pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described second when pre-conditioned, be described second area by described i the sub-boundary division of demonstration.

7. method as claimed in claim 6, is characterized in that, described the second colouring information is specially: half-tone information or brightness information.

8. the method as described in claim as arbitrary in claim 1-7, is characterized in that, described in the time that described first area detects touch control operation, carries out the first touch-control feedback, specifically comprises:

In the time that described first area detects described touch control operation, produce the first steering order;

Carry out described the first steering order, to produce the first touch-control feedback information.

9. method as claimed in claim 8, is characterized in that, described the first touch-control feedback information, is specially: the feedback system that adopts the first parameter to carry out linear motor vibrations; Or

According to the first preset rules adjust the first area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

10. the method as described in claim as arbitrary in claim 1-7, is characterized in that, described in the time that described second area detects touch control operation, carries out the second touch-control feedback, specifically comprises:

In the time that described second area detects described touch control operation, produce the second steering order;

Carry out described the second steering order, to produce the second touch-control feedback information.

11. methods as claimed in claim 10, is characterized in that, described the second touch-control feedback information, is specially: the feedback system that adopts the second parameter to carry out linear motor vibrations; Or

According to the second preset rules adjust the second area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

12. 1 kinds of electronic equipments, described electronic equipment comprises a touch-display unit, it is characterized in that, described electronic equipment also comprises:

First obtains module, in the time detecting that described touch-display unit surface exists touch control operation, obtains first image corresponding with the first display interface of described touch-display unit;

Second obtains module, for obtaining the first parameter information of described the first image;

Discriminating module, at least dividing into first area and second area based on described the first parameter information by the first display interface of described touch-display unit;

The first execution module, in the time that described first area detects touch control operation, carries out the first touch-control feedback;

The second execution module, in the time that described second area detects touch control operation, carries out the second touch-control feedback.

13. electronic equipments as claimed in claim 12, is characterized in that, described second obtains module, specifically for:

Obtain the first colouring information of each pixel in the picture element matrix of described the first image.

14. electronic equipments as claimed in claim 13, is characterized in that, described second obtains module, specifically for:

In the display buffer of described electronic equipment, obtain and be timed described the first colouring information refreshing.

15. electronic equipments as claimed in claim 12, is characterized in that, described the first display interface, is specially: whole display interfaces of described touch-display unit; Or the part display interface of described touch-display unit.

16. electronic equipments as claimed in claim 12, is characterized in that, described discriminating module, specifically comprises:

Obtain unit, for based on described the first parameter, described the first image being carried out to embossment computing, obtain the first camegraph and the first camegraph parameter;

Determining unit, for determining the second colouring information of each pixel of the picture element matrix of described the first camegraph based on described the first camegraph parameter;

Discrimination unit, at least dividing into first area and second area based on described the second colouring information by described the first display interface.

17. electronic equipments as claimed in claim 16, is characterized in that, described discrimination unit, specifically comprises:

Divide subelement, show sub-interface for described the first display interface being divided into N, wherein, N is more than or equal to 2 integer;

Judgment sub-unit, is 1 to N integer for getting successively i, judges whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets first pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described first when pre-conditioned, be described first area by described i the sub-boundary division of demonstration; And

Get successively i and be 1 to N integer, judge whether described i the second colouring information that shows each pixel of sub-interface shown i the first embossment subimage meets second pre-conditioned; When the second colouring information of each pixel of described i the first embossment subimage meets described second when pre-conditioned, be described second area by described i the sub-boundary division of demonstration.

18. electronic equipments as claimed in claim 16, is characterized in that, described the second colouring information is specially: half-tone information or brightness information.

Electronic equipment as described in 19. claims as arbitrary in claim 12-18, is characterized in that, described the first execution module, specifically comprises:

The first generation unit, in the time that described first area detects described touch control operation, produces the first steering order;

The first performance element, for carrying out described the first steering order, to produce the first touch-control feedback information.

20. electronic equipments as claimed in claim 19, is characterized in that, described the first touch-control feedback information, is specially: the feedback system that adopts the first parameter to carry out linear motor vibrations; Or

According to the first preset rules adjust the first area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

Electronic equipment as described in 21. claims as arbitrary in claim 12-18, is characterized in that, described the second execution module, specifically comprises:

The second generation unit, in the time that described second area detects described touch control operation, produces the second steering order;

The second performance element, for carrying out described the second steering order, to produce the second touch-control feedback information.

22. electronic equipments as claimed in claim 21, is characterized in that, described the second touch-control feedback information, is specially: the feedback system that adopts the second parameter to carry out linear motor vibrations; Or

According to the second preset rules adjust the second area of described touch-display unit corresponding at least one show the feedback system of the demonstration height at sub-interface.

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