CN105786234A - Method and system for optimizing touch response area - Google Patents

Abstract

The present invention provides a method and a system for optimizing a touch response area. The method includes the following steps of acquiring an X channel quantity and a Y channel quantity of a touch screen of a mobile device; acquiring an X occupation channel quantity and a Y occupation channel quantity that are occupied by user fingers; obtaining sizes of the user fingers according to the X occupation channel quantity and the Y occupation channel quantity; and adjusting a layout and a size of keys of the touch screen according to the sizes of the user fingers. The user fingers can fall into multiple sizes according to the sizes of the user fingers, the layout, size and a touch area of the keys of the touch screen can be planned automatically and displayed according to the sizes of the user fingers, and with practicability and attractiveness and tidiness of the touch screen met, touch screen misoperation is reduced to the greatest extent, and the size and layout of the touch screen keys are optimized.

Description

Optimize the method and system of touch-control response region

Technical field

The present invention relates to intelligent movable apparatus field, particularly relate to a kind of method and system optimizing touch-control response region.

Background technology

Along with the development of the intelligence systems such as iOS (iPhoneOperatingSystem, Apple Macintosh operating system) and Android (Android), touch screen is become increasingly dependent on by mobile equipment.Some touch screen button moving equipment is more, relatively crowded, and maloperation point is higher to the probability of side button, often has the generation of maloperation.The touch screen interface that screen size is big, key arrangement is bigger is set, it is possible to reduces the probability that error touch control response occurs, but affects the practicality of touch screen and beautiful and clean degree, therefore screen size, key arrangement is also had certain restriction.

Touch screen is as a most frequently used man machine communication interface, mobile equipment is not only to its input flexibility ratio, ease for use, resolution and outward appearance is practical and attractive higher requirement, and identify in the input keeping touch screen flexible, while beautiful and clean outward appearance, it is prevented that the misrecognized maloperation of touch screen is also particularly important.The finger size of people be substantially be not quite similar (as man, woman, child finger not of uniform size), and touch area and response region are not clearly distinguished from the corresponding operating interface of same equipment, so may result in the phenomenon often occurring that error touch control responds.

Summary of the invention

In consideration of it, the invention provides a kind of method and system optimizing touch-control response region, it according to the difference in size of user's finger, can dynamically adjust touch-control response region, reach to avoid to greatest extent the effect of touch-control maloperation.

For reaching goal of the invention, the present invention provides a kind of method optimizing touch-control response region, comprises the following steps:

Obtain X passage number and the Y port number of the touch screen of mobile equipment；

Obtain X active channel number and Y active channel number that user's finger takies；

According to described X active channel number and described Y active channel number, obtain the order of magnitude of described user's finger；

Described order of magnitude according to described user's finger, is adjusted to layout and the size of the button of described touch screen corresponding to described order of magnitude.

As a kind of embodiment, X active channel number that described acquisition user's finger takies and Y active channel number, comprise the following steps:

When described user's finger clicks described touch screen, the X sample active channel number that takies of described user's finger of sampling preset times and Y sample active channel number；

Described X sample active channel number according to described preset times and described Y sample active channel number, obtain described X active channel number and described Y active channel number that described user's finger takies.

As a kind of embodiment, described preset times is 5～30 times.

As a kind of embodiment, described order of magnitude is multiple；

Described according to described X active channel number with described Y active channel number, obtain the order of magnitude of described user's finger, comprise the steps:

X ranked channel number scope corresponding with each described order of magnitude with described Y active channel number for described X active channel number and Y ranked channel number scope are compared；

Judge the X ranked channel number scope belonging to described X active channel number and described Y active channel number and Y ranked channel number scope；

Described X ranked channel number scope belonging to described X active channel number and described Y active channel number and described Y ranked channel number scope determine the order of magnitude of described user's finger.

As a kind of embodiment, method and the conversion map method that the described layout of touch screen button of described adjustment and the method for size include dynamic identifying method, automatic adaptation is respective user interfaces.

The present invention also provides for a kind of system optimizing touch-control response region, including the first acquisition module, the second acquisition module, order of magnitude module and adjusting module, wherein:

Described first acquisition module, for obtaining X passage number and the Y port number of the touch screen of mobile equipment；

Described second acquisition module, for obtaining X active channel number and the Y active channel number that user's finger takies；

Described order of magnitude module, for according to described X active channel number and described Y active channel number, obtaining the order of magnitude of described user's finger；

Described adjusting module, for the described order of magnitude according to described user's finger, is adjusted to layout and the size of the button of described touch screen corresponding to described order of magnitude.

As a kind of embodiment, described second acquisition module includes sampling unit and obtains active channel counting unit, wherein:

Described sampling unit, for when described user's finger clicks described touch screen, the X sample active channel number that takies of described user's finger of sampling preset times and Y sample active channel number；

Described obtain active channel counting unit, for the described X sample active channel number according to described preset times and described Y sample active channel number, obtain described X active channel number and described Y active channel number that described user's finger takies.

As a kind of embodiment, described preset times is 5～30 times.

As a kind of embodiment, described order of magnitude is multiple；

Described order of magnitude module includes comparing unit, it is determined that unit and determine unit, wherein:

Described comparing unit, for comparing X ranked channel number scope corresponding with each described order of magnitude with described Y active channel number for described X active channel number and Y ranked channel number scope；

Described identifying unit, is used for judging the X ranked channel number scope belonging to described X active channel number and described Y active channel number and Y ranked channel number scope；

Described determine unit, determine the order of magnitude of described user's finger for the described X ranked channel number scope belonging to described X active channel number and described Y active channel number and described Y ranked channel number scope.

As a kind of embodiment, described adjusting module is Dynamic Recognition unit, automatic adaptation unit or conversion map unit.

The beneficial effect comprise that

The method and system optimizing touch-control response region of the present invention, user's finger is divided into multiple order of magnitude by the difference in size according to user's finger, order of magnitude according to user's finger is automatically planned and shows the layout of touch screen button, size and touch area, meeting on the basis of touch screen practicality and beautiful and clean degree, reaching at utmost to reduce touch screen maloperation, optimize the size of touch screen button and the effect of layout.Meanwhile, it realizes for pure software, has higher motility and fitness.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of an embodiment of the method optimizing touch-control response region of the present invention；

Fig. 2 is the schematic flow sheet of another embodiment of the method optimizing touch-control response region of the present invention；

Fig. 3 is the structural representation of an embodiment of the system optimizing touch-control response region of the present invention.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearly understand, the method and system that the present invention optimizes touch-control response region below in conjunction with drawings and Examples are further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the present invention, is not intended to limit the present invention.

Referring to Fig. 1, the embodiment of the present invention provides a kind of method optimizing touch-control response region, comprises the following steps:

S100, obtains X passage number and the Y port number of the touch screen of mobile equipment.

S200, obtains X active channel number and Y active channel number that user's finger takies.

S300, according to X active channel number and Y active channel number, obtains the order of magnitude of user's finger.

S400, the order of magnitude according to user's finger, adjust layout and the size of the button of touch screen.

The method optimizing touch-control response region of the present invention, user's finger is divided into multiple order of magnitude by the difference in size according to user's finger, order of magnitude according to user's finger is automatically planned and shows the layout of touch screen button, size and touch area, meeting on the basis of touch screen practicality and beautiful and clean degree, reaching at utmost to reduce touch screen maloperation, optimize the size of touch screen button and the effect of layout.Meanwhile, the method is that pure software realizes, and has higher motility and fitness.Wherein, mobile equipment includes smart mobile phone, panel computer, MID (MobileInternetDevice, mobile internet device), GPS (GlobalPositioningSystem, global positioning system) navigator, electricity meter-reading, the hand-held logging machine of logistics and vehicle-mounted computer.These touch screens moving equipment employing are mostly capacitance type touch control screens, and great majority all support multi-point touch, by the response region of next button, can occupy multiple passage on the X passage and Y passage of high-precision capacitance type touch control screen.

It should be noted that X passage and Y passage are 20 × 20 passages or are 30 × 30 passages, naturally it is also possible to for other passages that X passage number and Y port number differ.X active channel number and Y active channel number that user's finger takies can be the same or different, if the X passage number of CU and Y port number can be 5 × 5,2 × 2 or 2 × 3 etc..

As a kind of embodiment, referring to Fig. 2, step S200 comprises the steps:

S210, when user's finger clicks touch screen, the X sample active channel number that takies of user's finger of sampling preset times and Y sample active channel number.

S220, according to the X sample active channel number of preset times and Y sample active channel number, obtains X active channel number and Y active channel number that user's finger takies.

When user's finger clicks touch screen, the X sample active channel number that takies of user's finger of sampling preset times and Y sample active channel number, X sample active channel number that geometric probability is maximum and Y sample active channel number are as the X active channel number of user's finger and Y active channel number, or the average of X sample active channel number and Y sample active channel number is as the X active channel number of user's finger and Y active channel number.But it is not limited to X active channel number and Y active channel number that user's finger that method mentioned above obtains takies, it is also possible to for other modes, as long as can obtain reflecting X active channel number and the Y active channel number that user's finger takies the most accurately.

Preferably, wherein in an embodiment, when user's finger first time clicks touch screen, begin to X sample active channel number and Y sample active channel number that sample user finger takies, after sampling preset times, X sample active channel number according to preset times and Y sample active channel number, obtain X active channel number and Y active channel number that user's finger takies.It can improve the efficiency obtaining the X active channel number that takies of user's finger and Y active channel number, make touch screen the fastest be optimized for button size and the layout that user needs.

As a kind of embodiment, preset times is 5～30 times.

Preferably, wherein in an embodiment, preset times is 10 times, can obtain X active channel number and Y active channel number that relatively accurate user's finger takies, avoids again number of times too much, and impact optimizes efficiency, thus affecting user's result of use.

As a kind of embodiment, step S300 comprises the steps:

S310, compares X ranked channel number scope corresponding with each order of magnitude with described Y active channel number for described X active channel number and Y ranked channel number scope.

S320, it is determined that described X active channel number and the X ranked channel number scope belonging to described Y active channel number and Y ranked channel number scope.

S330, X ranked channel number scope belonging to X active channel number and described Y active channel number and described Y ranked channel number scope determine the order of magnitude of user's finger.

Wherein, order of magnitude is multiple.

Above-mentioned be the X active channel number taken according to user's finger and Y active channel number obtain user's finger order of magnitude be embodied as step, its narration is comparatively detailed, it is also possible to obtain by other means.Wherein it is desired to illustrate, X ranked channel number scope and Y ranked channel number may range from a numerical value, it is also possible to for several numerical value discrete continuously, it is also possible to for continuous print numerical intervals.The order of magnitude of user's finger can be divided into 2～5 grades according to product or device requirement.Preferably, wherein in an embodiment, the order of magnitude of user's finger is large, medium and small Three Estate.Substantially the demand that user's finger size divides can be met.

As a kind of embodiment, it is achieved method and the conversion map method that the method for step S400 includes dynamic identifying method, automatic adaptation is respective user interfaces.

Method and the conversion map method three kinds that the adjustment realizing touch screen button size and layout includes dynamic identifying method, automatic adaptation is respective user interfaces, it can select to be not limited in above-mentioned three kinds of methods according to concrete application, touch-control scene and input method button, and the method for most suitable and easy-to-use easy execution realizes the adjustment of touch screen button size and layout.

Wherein, what deserves to be explained is, dynamic identifying method is size and the layout that the order of magnitude dynamic realtime according to user's finger adjusts touch screen button, and the method is relatively conventional, repeats no more herein.Automatic adaptation is the method for respective user interfaces is be set in advance overlap UI (UserInterface by size and the layout of touch screen button more, user interface), corresponding with multiple order of magnitude of user's finger respectively, it is corresponding UI according to multiple order of magnitude automatic adaptations of user's finger.Preferably, wherein in an embodiment, the size of touch screen button and layout are set to three set UI in advance, corresponding with the large, medium and small Three Estate of user's finger respectively, the UI that order of magnitude automatic adaptation is its correspondence according to user's finger.Conversion map method is the size according to original touch screen button and UI corresponding to layout, converts mapping accordingly according to the order of magnitude of user's finger, finally gives the UI that the order of magnitude with user's finger is adaptive.

Based on same inventive concept, present invention also offers a kind of system optimizing touch-control response region, due to this system, to solve the principle of problem similar with a kind of aforementioned method optimizing touch-control response region, and therefore the enforcement of this system may refer to the enforcement of preceding method, and repetition part repeats no more.

The system optimizing touch-control response region that the embodiment of the present invention provides, referring to Fig. 3, including the first acquisition module 100, the second acquisition module 200, order of magnitude module 300 and adjusting module 400.Wherein: the first acquisition module 100, for obtaining X passage number and the Y port number of the touch screen of mobile equipment.Second acquisition module 200, for obtaining X active channel number and the Y active channel number that user's finger takies.Order of magnitude module 300, for according to described X active channel number and described Y active channel number, obtaining the order of magnitude of user's finger.Adjusting module 400, for the order of magnitude according to user's finger, adjusts layout and the size of the button of touch screen.

The system optimizing touch-control response region of the present invention, user's finger is divided into multiple order of magnitude by the difference in size according to user's finger, order of magnitude according to user's finger is automatically planned and shows the layout of touch screen button, size and touch area, meeting on the basis of touch screen practicality and beautiful and clean degree, reaching at utmost to reduce touch screen maloperation, optimize the size of touch screen button and the effect of layout.Meanwhile, all or part of step of the present invention can be passed through to set up functional module framework, computer instruction control chip or relevant device realize, have higher motility and fitness.

As a kind of embodiment, the second acquisition module 200 includes sampling unit 210 and obtains active channel counting unit 220.Wherein: sampling unit 210, for when user's finger clicks described touch screen, the X sample active channel number that takies of user's finger of sampling preset times and Y sample active channel number.Obtain active channel counting unit, for the X sample active channel number according to preset times and Y sample active channel number, obtain X active channel number and Y active channel number that user's finger takies.

As a kind of embodiment, preset times is 5～30 times.

As a kind of embodiment, order of magnitude is multiple.Order of magnitude module 300 includes comparing unit 310, it is determined that unit 320 and determine unit 330.Wherein: comparing unit 310, for X ranked channel number scope corresponding with each order of magnitude with Y active channel number for X active channel number and Y ranked channel number scope are compared.Identifying unit 320, is used for judging the X ranked channel number scope belonging to X active channel number and Y active channel number and Y ranked channel number scope.Determine unit 330, determine the order of magnitude of described user's finger for the X ranked channel number scope belonging to X active channel number and Y active channel number and Y ranked channel number scope.

As a kind of embodiment, described adjusting module is Dynamic Recognition unit 410, automatic adaptation unit 420 or conversion map unit 430.

Embodiment described above only have expressed the several embodiments of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that, for the person of ordinary skill of the art, without departing from the inventive concept of the premise, it is also possible to making some deformation and improvement, these broadly fall into protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. the method optimizing touch-control response region, it is characterised in that comprise the following steps:

Obtain X passage number and the Y port number of the touch screen of mobile equipment；

Obtain X active channel number and Y active channel number that user's finger takies；

According to described X active channel number and described Y active channel number, obtain the order of magnitude of described user's finger；

Described order of magnitude according to described user's finger, is adjusted to layout and the size of the button of described touch screen corresponding to described order of magnitude.

2. the method for optimization touch-control response region according to claim 1, it is characterised in that X active channel number that described acquisition user's finger takies and Y active channel number, comprises the following steps:

When described user's finger clicks described touch screen, the X sample active channel number that takies of described user's finger of sampling preset times and Y sample active channel number；

Described X sample active channel number according to described preset times and described Y sample active channel number, obtain described X active channel number and described Y active channel number that described user's finger takies.

3. the method for optimization touch-control response region according to claim 2, it is characterised in that described preset times is 5～30 times.

4. the method for optimization touch-control response region according to claim 1, it is characterised in that described order of magnitude is multiple；

Described according to described X active channel number with described Y active channel number, obtain the order of magnitude of described user's finger, comprise the steps:

X ranked channel number scope corresponding with each described order of magnitude with described Y active channel number for described X active channel number and Y ranked channel number scope are compared；

Judge the X ranked channel number scope belonging to described X active channel number and described Y active channel number and Y ranked channel number scope；

Described X ranked channel number scope belonging to described X active channel number and described Y active channel number and described Y ranked channel number scope determine the order of magnitude of described user's finger.

5. the method optimizing touch-control response region according to any one of Claims 1-4, it is characterized in that, method and the conversion map method that the described layout of touch screen button of described adjustment and the method for size include dynamic identifying method, automatic adaptation is respective user interfaces.

6. the system optimizing touch-control response region, it is characterised in that include the first acquisition module, the second acquisition module, order of magnitude module and adjusting module, wherein:

Described first acquisition module, for obtaining X passage number and the Y port number of the touch screen of mobile equipment；

Described second acquisition module, for obtaining X active channel number and the Y active channel number that user's finger takies；

Described order of magnitude module, for according to described X active channel number and described Y active channel number, obtaining the order of magnitude of described user's finger；

Described adjusting module, for the described order of magnitude according to described user's finger, is adjusted to layout and the size of the button of described touch screen corresponding to described order of magnitude.

7. the system of optimization touch-control response region according to claim 6, it is characterised in that described second acquisition module includes sampling unit and obtains active channel counting unit, wherein:

Described sampling unit, for when described user's finger clicks described touch screen, the X sample active channel number that takies of described user's finger of sampling preset times and Y sample active channel number；

Described obtain active channel counting unit, for the described X sample active channel number according to described preset times and described Y sample active channel number, obtain described X active channel number and described Y active channel number that described user's finger takies.

8. the system of optimization touch-control response region according to claim 7, it is characterised in that described preset times is 5～30 times.

9. the system of optimization touch-control response region according to claim 6, it is characterised in that described order of magnitude is multiple；

Described order of magnitude module includes comparing unit, it is determined that unit and determine unit, wherein:

Described comparing unit, for comparing X ranked channel number scope corresponding with each described order of magnitude with described Y active channel number for described X active channel number and Y ranked channel number scope；

Described identifying unit, is used for judging the X ranked channel number scope belonging to described X active channel number and described Y active channel number and Y ranked channel number scope；

Described determine unit, determine the order of magnitude of described user's finger for the described X ranked channel number scope belonging to described X active channel number and described Y active channel number and described Y ranked channel number scope.

10. the system of optimization touch-control response region according to any one of claim 6 to 9, it is characterised in that described adjusting module is Dynamic Recognition unit, automatic adaptation unit or conversion map unit.