CN104881190B - One kind interference processing method and electronic equipment - Google Patents

Abstract

The embodiment of the invention discloses one kind interference processing method and electronic equipment；Methods described includes：Detect the first parameter of the touch control unit of electronic equipment；The deformation degree of touch control unit described in first parameter characterization；The first touch area of the touch control unit is determined based on first parameter, and based on the second parameter of the first touch area described in first parameter adjustment；The driving parameter of touch control unit described in second parameter characterization；First touch area of the touch control unit is controlled to export second parameter.

Description

One kind interference processing method and electronic equipment

Technical field

The present invention relates to data processing technique, and in particular to one kind interference processing method and electronic equipment.

Background technology

With the development of touch technology, large-sized touch screen is applied in the electronic device, such as all-in-one.Capacitance touching control Screen includes glassy layer and film coating.When the touching display screen of electronic equipment is kept flat, display screen own wt is touched Influence, sinking deformation can occur for the outermost glass panel of touching display screen；The size of touching display screen is bigger, under glass panel Heavy deformation is more serious.Generally, the image element circuit of the display panel of electronic equipment is arranged on the inner side of touch screen, when touch screen is sent out When giving birth to heavy deformation, the air gap between touch screen and display panel is thinning, and the image element circuit of display panel can influence electric capacity The inductance capacitance of formula touch screen, and distance is nearer, the interference to inductance capacitance is bigger, so as to influence the touch-control behaviour to touch screen Make, cause touch control operation abnormal or the problem of without response.

The content of the invention

To solve existing technical problem, the embodiment of the present invention provides a kind of interference processing method and electronic equipment, The problem of can solve the problem that due to touch control operation exception caused by the deformation of touch control unit or without response.

To reach above-mentioned purpose, what the technical scheme of the embodiment of the present invention was realized in：

The embodiments of the invention provide one kind to disturb processing method, and methods described includes：

Detect the first parameter of the touch control unit of electronic equipment；The deformation journey of touch control unit described in first parameter characterization Degree；

The first touch area of the touch control unit is determined based on first parameter, and is based on first parameter adjustment Second parameter of first touch area；The driving parameter of touch control unit described in second parameter characterization；

First touch area of the touch control unit is controlled to export second parameter.

In such scheme, second parameter and the first parameter positive correlation after adjustment.

In such scheme, first touch area that the touch control unit is determined based on first parameter, including：

The central point of first touch area is determined based on first parameter, the first touch-control is determined by the central point Subregion and the second touch-control subregion；First touch area includes the first touch-control subregion and the second touch-control sub-district Domain；

Wherein, the central point of the first touch-control subregion and the second touch-control subregion overlaps, and described first touches The area for controlling subregion is not equal to the area of the second touch-control subregion.

In such scheme, the central point that first touch area is determined based on first parameter, in described Heart point determines the first touch-control subregion and the second touch-control subregion, including：

It is the first touch-control subregion and the second touch-control subregion to determine the maximum position of first parameter Central point；

First touch-control subregion is determined by the first radius based on the central point；

Second touch-control subregion is determined by the second radius based on the central point；

Wherein, first radius is not equal to second radius；First radius and the size of the touch area With the first proportionate relationship；Second radius and the size of the touch area have the second proportionate relationship；First ratio Example relation and second proportionate relationship with the first parameter positive correlation.

In such scheme, when the area of the second touch-control subregion is more than the area of the first touch-control subregion, Second parameter based on the first touch area described in first parameter adjustment, including：

The second parameter for adjusting the first touch-control subregion is M1；

The second parameter for adjusting the touch area in the second touch-control subregion and outside the first touch-control subregion is M2；

Wherein, M1 is not equal to M2；M1 and M2 with the first parameter positive correlation.

The embodiment of the present invention additionally provides a kind of electronic equipment, and the electronic equipment includes：Touch control unit, detection unit, Analysis and processing unit and control unit；Wherein,

The detection unit, for detecting the first parameter of touch control unit；Touch control unit described in first parameter characterization Deformation degree；

The analysis and processing unit, for determining the touch-control list based on first parameter that the detection unit detects First touch area of member, and based on the second parameter of the first touch area described in first parameter adjustment；Second ginseng Number characterizes the driving parameter of the touch control unit；

Described control unit, for controlling first touch area of the touch control unit to export second parameter.

In such scheme, second parameter and the first parameter positive correlation after adjustment.

In such scheme, the analysis and processing unit, for determining first touch area based on first parameter Central point, determine the first touch-control subregion and the second touch-control subregion by the central point；First touch area includes First touch-control subregion and the second touch-control subregion；Wherein, the first touch-control subregion and the second touch-control sub-district The central point in domain overlaps, and the area of the first touch-control subregion is not equal to the area of the second touch-control subregion.

In such scheme, the analysis and processing unit, for determining that the maximum position of first parameter is described first The central point of touch-control subregion and the second touch-control subregion；First touch-control is determined by the first radius based on the central point Region；Second touch-control subregion is determined by the second radius based on the central point；Wherein, first radius is not equal to described the Two radiuses；First radius and the size of the touch area have the first proportionate relationship；Second radius touches with described The size in control region has the second proportionate relationship；First proportionate relationship is joined with second proportionate relationship with described first Number positive correlation.

In such scheme, the analysis and processing unit, it is more than described for the area when the second touch-control subregion During the area of one touch-control subregion, the second parameter for adjusting the first touch-control subregion is M1；Adjust the second touch-control Second parameter of the touch area in region and outside the first touch-control subregion is M2；Wherein, M1 is not equal to M2；M1 is equal with M2 With the first parameter positive correlation.

Interference processing method provided in an embodiment of the present invention and electronic equipment, detect the first of the touch control unit of electronic equipment Parameter；The deformation degree of touch control unit described in first parameter characterization；The touch control unit is determined based on first parameter The first touch area, and based on the second parameter of the first touch area described in first parameter adjustment；Second parameter Characterize the driving parameter of the touch control unit；First touch area of the touch control unit is controlled to export second ginseng Number.In this way, using the technical scheme of the embodiment of the present invention, by the detection of the first parameter to touch control unit, so as to adjust State the second parameter of touch control unit so that when the deformation degree of the touch control unit is excessive, increase the drive of the touch control unit Dynamic parameter, the problem of avoiding due to touch control operation exception caused by the deformation of touch control unit or without response, improve user's Operating experience.

Brief description of the drawings

Fig. 1 is the schematic flow sheet of the interference processing method of the embodiment of the present invention one；

Fig. 2 is the schematic flow sheet of the interference processing method of the embodiment of the present invention two；

Fig. 3 is the schematic flow sheet of the interference processing method of the embodiment of the present invention three；

Fig. 4 is the schematic diagram of a scenario of the first touch area in the embodiment of the present invention three；

Fig. 5 is the composition structural representation of the electronic equipment of the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawings and specific embodiment the present invention is further detailed explanation.

Embodiment one

The embodiments of the invention provide one kind to disturb processing method.Fig. 1 is the interference processing method of the embodiment of the present invention one Schematic flow sheet；As shown in figure 1, methods described includes：

Step 101：Detect the first parameter of the touch control unit of electronic equipment；Touch control unit described in first parameter characterization Deformation degree.

Interference processing method described in the present embodiment is applied in electronic equipment, and the electronic equipment has touch control unit, The touch control unit can be capacitive touch control unit；Specifically, the electronic equipment can be have touch controllable function mobile phone, Tablet personal computer, all-in-one, desktop computer etc..Then in this step, the first parameter of the touch control unit of the detection electronic equipment, Including：The electronic equipment detects the first parameter of the touch control unit of itself.

Specifically, the outermost layer of the touch control unit (such as capacitive touch control unit) is glassy layer, scribbles and lead in glassy layer Electrocoat (ITO), then form conductive glass layer；Four electrodes are drawn at four angles of conductive glass layer, and electro-conductive glass is described four Individual electrode provides and forms uniform electric field under voltage；Conductive glass layer is arranged with the inductance capacitance of array type；Because human body is band Electric conductor, when user's finger contacts are to touch control unit surface, finger siphons away portion of electrical current from contact point, so as to change described connect The capacitance size of inductance capacitance corresponding to contact；The change of capacitance size of the controller based on inductance capacitance determines the position of contact point Put coordinate.Because the surface area of glassy layer is larger and its thickness is relatively thin, when the touch control unit (being specially glassy layer) is in During non-vertical laying state (such as keeping flat), the influence that glassy layer can receive self gravitation deforms upon, and based on this, is examined in this step Survey the first parameter of the touch control unit, namely the first parameter of the detection glassy layer.

Wherein, the touch control unit is arranged on the top of the liquid crystal display panel circuit of the electronic equipment, the touch-control There is a layer of air layer, i.e., described touch control unit and the liquid crystal display panel between unit and the liquid crystal display panel circuit There is certain distance between circuit；The air layer is specifically as follows 1.4 millimeters (mm).In the present embodiment, first parameter The deformation degree of the touch control unit is characterized, first parameter can pass through the touch control unit and the liquid crystal display panel The distance between circuit characterizes.Specifically, as a kind of embodiment, first parameter can be detected by range sensor and obtained ；As described in the difference of the distance between touch control unit and the liquid crystal display panel circuit and gauged distance as described in detecting determines First parameter.As another embodiment, the own wt of the touch control unit (being specially glassy layer) can be based on, with reference to institute The angle for stating touch control unit and vertical direction determines first parameter；For example, when the touch control unit and the folder of vertical direction When angle is reverse 90 degree, described reverse 90 degree can be understood as 90 degree of rotate counterclockwise, i.e., described electronic equipment touches Unit is controlled upper, liquid crystal display panel circuit is under；Accordingly, positive 90 degree are rotated ninety degrees clockwise, i.e., described electricity The touch control unit of sub- equipment is under, and liquid crystal display panel circuit is upper.Then when the angle of the touch control unit and vertical direction is At reverse 90 degree, because touch control unit is usually the rectangle (such as rectangle) of rule, then focus point is the midpoint of the rectangle, Namely the deformation degree of the focus point is maximum；Weight, thickness and the own material of glassy layer based on the touch control unit Type, the first parameter of the touch control unit is determined by preset formula model；Here, the rule of first parameter is：It is described First parameter of the focus point of touch control unit is maximum, and first parameter on four summits of the touch control unit is minimum, from described heavy Heart point to four summits, first parameter linearly reduces trend.

Step 102：The first touch area of the touch control unit is determined based on first parameter, and based on described first Second parameter of the first touch area described in parameter adjustment；The driving parameter of touch control unit described in second parameter characterization.

Here, the touch control unit has touch area, and the touch area is generally equal to the display of the electronic equipment Region, certainly, the touch area can also be unequal with the viewing area.Then in this step, first touch area Less than or equal to the touch area.Four electrodes are drawn at four angles of the conductive glass layer of the touch control unit, so as to described Four electrodes apply driving voltage and cause the electro-conductive glass to form uniform electric field, then in this step, second parameter is institute The driving parameter of touch control unit is stated, the driving parameter is specifically as follows driving voltage.

In this step, first touch area that the touch control unit is determined based on first parameter, including：It is based on The numerical values recited of first parameter determines the first touch area of the touch control unit.Specifically, determine first parameter Touch area in the first preset threshold range is first touch area；For example, when first parameter is more than or equal to a During less than or equal to b (a and b is positive integer and a is less than b), determine that touch area corresponding to first parameter is touched for described first Control region.Certainly, the quantity of first touch area is at least one, for example, when first parameter is less than more than or equal to a During equal to b, it is the first touch-control subregion to determine touch area corresponding to first parameter；When first parameter is more than or equal to When c is less than b, it is the second touch-control subregion to determine touch area corresponding to first parameter；Wherein, a, b, c are positive integer.

Wherein, due to being touched the influence of unit deformation, between touch control unit and the liquid crystal display panel circuit Air layer changes, namely the distance between the touch control unit and described liquid crystal display panel circuit change；Work as institute Stating touch control unit deformation causes the distance between the touch control unit and liquid crystal display panel circuit to become hour, by the liquid crystal The interference effect of display panel circuit, possibility None- identified goes out operation when the touch control unit exports according to the driving parameter of acquiescence The operating point of body.Based on this, second parameter based on the first touch area described in first parameter adjustment, including：When When first parameter reaches preset threshold range, improve second parameter to the preset threshold range and correspond to numerical value, and Second parameter and the first parameter positive correlation after adjustment.Such as：It is pre-configured with the first preset threshold range and corresponds to number Value M1, the second preset threshold range corresponds to numerical value M2, M1 and M2 and is all higher than acquiescence driving parameter, and M1 is more than M2；Then when described When first parameter is in first preset threshold range, second parameter is adjusted to M1；When second parameter is described When in the second preset threshold range, second parameter is adjusted to M2.

Step 103：First touch area of the touch control unit is controlled to export second parameter.

Using the technical scheme of the embodiment of the present invention, by the detection of the first parameter to touch control unit, so as to adjust State the second parameter of touch control unit so that when the deformation degree of the touch control unit is excessive, increase the drive of the touch control unit Dynamic parameter, the problem of avoiding due to touch control operation exception caused by the deformation of touch control unit or without response, improve user's Operating experience.

Embodiment two

The embodiments of the invention provide one kind to disturb processing method.Fig. 2 is the interference processing method of the embodiment of the present invention two Schematic flow sheet；As shown in Fig. 2 methods described includes：

Step 201：Detect the first parameter of the touch control unit of electronic equipment；Touch control unit described in first parameter characterization Deformation degree.

Interference processing method described in the present embodiment is applied in electronic equipment, and the electronic equipment has touch control unit, The touch control unit can be capacitive touch control unit；Specifically, the electronic equipment can be have touch controllable function mobile phone, Tablet personal computer, all-in-one, desktop computer etc..Then in this step, the first parameter of the touch control unit of the detection electronic equipment, Including：The electronic equipment detects the first parameter of the touch control unit of itself.

Specifically, the outermost layer of the touch control unit (such as capacitive touch control unit) is glassy layer, scribbles and lead in glassy layer Electrocoat (ITO), then form conductive glass layer；Four electrodes are drawn at four angles of conductive glass layer, and electro-conductive glass is described four Individual electrode provides and forms uniform electric field under voltage；Conductive glass layer is arranged with the inductance capacitance of array type；Because human body is band Electric conductor, when user's finger contacts are to touch control unit surface, finger siphons away portion of electrical current from contact point, so as to change described connect The capacitance size of inductance capacitance corresponding to contact；The change of capacitance size of the controller based on inductance capacitance determines the position of contact point Put coordinate.Because the surface area of glassy layer is larger and its thickness is relatively thin, when the touch control unit (being specially glassy layer) is in During non-vertical laying state (such as keeping flat), the influence that glassy layer can receive self gravitation deforms upon, and based on this, is examined in this step Survey the first parameter of the touch control unit, namely the first parameter of the detection glassy layer.

Wherein, the touch control unit is arranged on the top of the liquid crystal display panel circuit of the electronic equipment, the touch-control There is a layer of air layer, i.e., described touch control unit and the liquid crystal display panel between unit and the liquid crystal display panel circuit There is certain distance between circuit；The air layer is specifically as follows 1.4 millimeters (mm).In the present embodiment, first parameter The deformation degree of the touch control unit is characterized, first parameter can pass through the touch control unit and the liquid crystal display panel The distance between circuit characterizes.Specifically, as a kind of embodiment, first parameter can be detected by range sensor and obtained ；As described in the difference of the distance between touch control unit and the liquid crystal display panel circuit and gauged distance as described in detecting determines First parameter.As another embodiment, the own wt of the touch control unit (being specially glassy layer) can be based on, with reference to institute The angle for stating touch control unit and vertical direction determines first parameter；For example, when the touch control unit and the folder of vertical direction When angle is reverse 90 degree, described reverse 90 degree can be understood as 90 degree of rotate counterclockwise, i.e., described electronic equipment touches Unit is controlled upper, liquid crystal display panel circuit is under；Accordingly, positive 90 degree are rotated ninety degrees clockwise, i.e., described electricity The touch control unit of sub- equipment is under, and liquid crystal display panel circuit is upper.Then when the angle of the touch control unit and vertical direction is At reverse 90 degree, because touch control unit is usually the rectangle (such as rectangle) of rule, then focus point is the midpoint of the rectangle, Namely the deformation degree of the focus point is maximum；Weight, thickness and the own material of glassy layer based on the touch control unit Type, the first parameter of the touch control unit is determined by preset formula model；Here, the rule of first parameter is：It is described First parameter of the focus point of touch control unit is maximum, and first parameter on four summits of the touch control unit is minimum, from described heavy Heart point to four summits, first parameter linearly reduces trend.

Step 202：The central point of first touch area is determined based on first parameter, is determined by the central point First touch-control subregion and the second touch-control subregion；First touch area includes the first touch-control subregion and described second and touched Control subregion；Wherein, the central point of the first touch-control subregion and the second touch-control subregion overlaps, and described first touches The area for controlling subregion is not equal to the area of the second touch-control subregion.

Here, the touch control unit has touch area, and the touch area is generally equal to the display of the electronic equipment Region, certainly, the touch area can also be unequal with the viewing area.Then in this step, first touch area Less than or equal to the touch area.Four electrodes are drawn at four angles of the conductive glass layer of the touch control unit, so as to described Four electrodes apply driving voltage and cause the electro-conductive glass to form uniform electric field, then in this step, second parameter is institute The driving parameter of touch control unit is stated, the driving parameter is specifically as follows driving voltage.

In the present embodiment, the central point that first touch area is determined based on first parameter, in described Heart point determines the first touch-control subregion and the second touch-control subregion, including：Determine the maximum touch point conduct of first parameter The central point of first touch area, i.e. using the maximum touch point of the deformation degree of the touch control unit as described first The central point of touch area, the first touch-control subregion and the second touch-control subregion are divided based on the central point；Due to by described The influence of the quality of the glassy layer of touch control unit, thickness and material, first parameter is from the central point to four summits Between linearly change, i.e., described first touch-control subregion and the second touch-control subregion are continuously distributed region；Then originally It is origin based on the central point in step, the first touch-control subregion is determined by the first radius；It is based on the central point Origin, the second touch-control subregion is determined by the second radius；Wherein, first radius is not equal to second radius；Institute Stating the first radius and the size of the touch area has the first proportionate relationship；Second radius and the chi of the touch area It is very little that there is the second proportionate relationship；First proportionate relationship and second proportionate relationship with the first parameter positive correlation. Wherein, the maximum touch point of first parameter can be at least one that the central point of that is, described first touch area is at least One；When the central point of first touch area is one, the first touch-control subregion is to be determined by the first radius Border circular areas, the second touch-control subregion are the border circular areas determined by second radius；When first touch area Central point be at least two when, the first touch-control subregion be by the first radius determine elliptical region；Described second Touch-control subregion is the elliptical region determined by the second radius.Wherein, first radius and second radius with it is described First parameter positive correlation, namely the deformation degree positive correlation with the touch control unit.Wherein, the face of the first touch-control subregion Product is not equal to the area of the second touch-control subregion, then the area of the first touch-control subregion is more than second touch-control The area in region, or, the area of the first touch-control subregion is less than the area of the second touch-control subregion.

Step 203：The second parameter for adjusting the first touch-control subregion is M1；Adjust in the second touch-control subregion And the second parameter of the touch area outside the first touch-control subregion is M2；Wherein, M1 is not equal to M2；M1 and M2 with it is described First parameter positive correlation；The driving parameter of touch control unit described in second parameter characterization.Wherein, the second touch-control subregion Area be more than the first touch-control subregion area.

In the present embodiment, using the area of the first touch-control subregion be more than the second touch-control subregion area as Example, then the second parameter of the first touch-control subregion is that the second parameter that M1 is more than the second touch-control subregion is that M2 is more than The acquiescence driving parameter of the touch control unit, it can be understood as, the deformation degree of the touch control unit is bigger, corresponding driving ginseng Number adjusts bigger.

Step 204：The first touch-control subregion of the touch control unit is controlled to export second parameter by M1；Control Touch area in the second touch-control subregion and outside the first touch-control subregion exports second parameter by M2.

Using the technical scheme of the embodiment of the present invention, by the detection of the first parameter to touch control unit, so as to adjust State the second parameter of touch control unit so that when the deformation degree of the touch control unit is excessive, increase the drive of the touch control unit Dynamic parameter, the problem of avoiding due to touch control operation exception caused by the deformation of touch control unit or without response, improve user's Operating experience.

Embodiment three

The embodiment of the present invention additionally provides a kind of interference processing method.The present embodiment is by taking concrete application as an example to of the invention real The interference processing method for applying example is described in detail.In the present embodiment, the touch area of the touch control unit of the electronic equipment and The viewing area of display unit is equal and is rectangle, and the electronic equipment is in horizontal positioned state, i.e., described touch control unit and The display unit is horizontally oriented and the touch control unit is above the display unit.Fig. 3 is the embodiment of the present invention three Interference processing method schematic flow sheet；As shown in figure 3, methods described includes：

Step 301：Detect the first parameter of the touch control unit of electronic equipment；Touch control unit described in first parameter characterization Deformation degree.

Interference processing method described in the present embodiment is applied in electronic equipment, and the electronic equipment has touch control unit, The touch control unit can be capacitive touch control unit；Specifically, the electronic equipment can be have touch controllable function mobile phone, Tablet personal computer, all-in-one, desktop computer etc..Then in this step, the first parameter of the touch control unit of the detection electronic equipment, Including：The electronic equipment detects the first parameter of the touch control unit of itself.

Specifically, the outermost layer of the touch control unit (such as capacitive touch control unit) is glassy layer, scribbles and lead in glassy layer Electrocoat (ITO), then form conductive glass layer；Four electrodes are drawn at four angles of conductive glass layer, and electro-conductive glass is described four Individual electrode provides and forms uniform electric field under voltage；Conductive glass layer is arranged with the inductance capacitance of array type；Because human body is band Electric conductor, when user's finger contacts are to touch control unit surface, finger siphons away portion of electrical current from contact point, so as to change described connect The capacitance size of inductance capacitance corresponding to contact；The change of capacitance size of the controller based on inductance capacitance determines the position of contact point Put coordinate.Because the surface area of glassy layer is larger and its thickness is relatively thin, when the touch control unit (being specially glassy layer) is in During non-vertical laying state (such as keeping flat), the influence that glassy layer can receive self gravitation deforms upon, and based on this, is examined in this step Survey the first parameter of the touch control unit, namely the first parameter of the detection glassy layer.

Wherein, the touch control unit is arranged on the top of the liquid crystal display panel circuit of the electronic equipment, the touch-control There is a layer of air layer, i.e., described touch control unit and the liquid crystal display panel between unit and the liquid crystal display panel circuit There is certain distance between circuit；The air layer is specifically as follows 1.4 millimeters (mm).In the present embodiment, first parameter The deformation degree of the touch control unit is characterized, first parameter can pass through the touch control unit and the liquid crystal display panel The distance between circuit characterizes.Specifically, as a kind of embodiment, first parameter can be detected by range sensor and obtained ；As described in the difference of the distance between touch control unit and the liquid crystal display panel circuit and gauged distance as described in detecting determines First parameter.As another embodiment, the own wt of the touch control unit (being specially glassy layer) can be based on, with reference to institute The angle for stating touch control unit and vertical direction determines first parameter；For example, when the touch control unit and the folder of vertical direction When angle is reverse 90 degree, described reverse 90 degree can be understood as 90 degree of rotate counterclockwise, i.e., described electronic equipment touches Unit is controlled upper, liquid crystal display panel circuit is under；Accordingly, positive 90 degree are rotated ninety degrees clockwise, i.e., described electricity The touch control unit of sub- equipment is under, and liquid crystal display panel circuit is upper.Then when the angle of the touch control unit and vertical direction is At reverse 90 degree, because touch control unit is usually the rectangle (such as rectangle) of rule, then focus point is the midpoint of the rectangle, Namely the deformation degree of the focus point is maximum；Weight, thickness and the own material of glassy layer based on the touch control unit Type, the first parameter of the touch control unit is determined by preset formula model；Here, the rule of first parameter is：It is described First parameter of the focus point of touch control unit is maximum, and first parameter on four summits of the touch control unit is minimum, from described heavy Heart point to four summits, first parameter linearly reduces trend.

Step 302：Central point O is determined based on first parameter.

Here, in this step, center of the maximum touch point of first parameter as first touch area is determined Point.Because the touch control unit of electronic equipment described in the present embodiment is rectangle, and the outermost glass thickness of the touch control unit Degree is uniform, therefore the touch point of first parameter maximum is where the segment centerline parallel with the long side of the touch control unit Point.Based on this, Fig. 4 is the schematic diagram of a scenario of the first touch area in the embodiment of the present invention three, as shown in figure 4, being touched with described Exemplified by the top left co-ordinate of control unit is (0,0), bottom right angular coordinate is (x, y), it is determined that the coordinate of the central point O is (x/ 2, y/2).

Step 303：Centered on O points, X1 is major radius, Y1 is that short radius determines the first touch-control subregion；X2 is long by half Footpath, Y2 are that short radius determines the second touch-control subregion；Wherein, X1 is less than X2；Y1 is less than Y2.

In the present embodiment, because the touch control unit is rectangle, then the first touch-control subregion and second touch-control Subregion is elliptic region, i.e., is that short radius determines the first elliptic region using X1 as major radius, Y1, using X2 as major radius, Y2 The second elliptic region is determined for short radius.Specifically, X1=N1X, Y1=N1Y；X2=N2X, Y1=N2Y；Wherein, N1 is less than N2。

Specifically, the numerical values recited positive correlation of N1 and N2 numerical values recited and first parameter, i.e., described first parameter Bigger, N1 and N2 numerical value are bigger.For example, N1=0.05 or 0.06；N2=0.10 or 0.15.

Step 304：The second parameter for adjusting the first touch-control subregion is M1；Adjust in the second touch-control subregion And the second parameter of the touch area outside the first touch-control subregion is M2；Wherein, M1 is more than M2；M1 and M2 are with described the One parameter positive correlation；Wherein, the driving parameter of touch control unit described in second parameter characterization.Wherein, the second touch-control The area in region is more than the area of the first touch-control subregion.

Here, the driving parameter of touch control unit described in second parameter characterization, the driving parameter are specifically as follows drive Dynamic voltage.Wherein, M1 is more than M more than M2；M is that the acquiescence of the touch control unit drives parameter.

Step 305：The first touch-control subregion of the touch control unit is controlled to export second parameter by M1；Control Touch area in the second touch-control subregion and outside the first touch-control subregion exports second parameter by M2.

Using the technical scheme of the embodiment of the present invention, by the detection of the first parameter to touch control unit, so as to adjust State the second parameter of touch control unit so that when the deformation degree of the touch control unit is excessive, increase the drive of the touch control unit Dynamic parameter, the problem of avoiding due to touch control operation exception caused by the deformation of touch control unit or without response, improve user's Operating experience.

Example IV

The embodiment of the present invention additionally provides a kind of electronic equipment.Fig. 5 is the composition knot of the electronic equipment of the embodiment of the present invention Structure schematic diagram；As shown in figure 5, the electronic equipment includes：Touch control unit 50, detection unit 51, analysis and processing unit 52 and control Unit 53 processed；Wherein,

The detection unit 51, for detecting the first parameter of touch control unit 50；Touch-control described in first parameter characterization The deformation degree of unit 50；

The analysis and processing unit 52, first parameter for being detected based on the detection unit 51 determine described touch The first touch area of unit 50 is controlled, and based on the second parameter of the first touch area described in first parameter adjustment；It is described The driving parameter of touch control unit 50 described in second parameter characterization；

Described control unit 53, first touch area for controlling the touch control unit 50 export second ginseng Number.

Wherein, second parameter after adjustment and the first parameter positive correlation.

It will be appreciated by those skilled in the art that in the electronic equipment of the embodiment of the present invention each processing unit function, can join Understand, each processing unit in the electronic equipment of the embodiment of the present invention according to the associated description of foregoing interference processing method, can pass through Realize the analog circuit of the function described in the embodiment of the present invention and realize, can also be by performing the work(described in the embodiment of the present invention Can operation of the software on intelligent terminal and realize.

Embodiment five

The embodiment of the present invention additionally provides a kind of electronic equipment, as shown in figure 5, the electronic equipment includes：Touch control unit 50th, detection unit 51, analysis and processing unit 52 and control unit 53；Wherein,

The detection unit 51, for detecting the first parameter of touch control unit 50；Touch-control described in first parameter characterization The deformation degree of unit 50；

The analysis and processing unit 52, for determining the central point of first touch area based on first parameter, The first touch-control subregion and the second touch-control subregion are determined by the central point；First touch area includes the first touch-control Region and the second touch-control subregion；Wherein, the central point of the first touch-control subregion and the second touch-control subregion Overlap, and the area of the first touch-control subregion is not equal to the area of the second touch-control subregion；It is additionally operable to when described the When the area of two touch-control subregions is more than the area of the first touch-control subregion, the second of the first touch-control subregion is adjusted Parameter is M1；The second parameter for adjusting the touch area in the second touch-control subregion and outside the first touch-control subregion is M2；Wherein, M1 is not equal to M2；M1 and M2 with the first parameter positive correlation；Touch control unit described in second parameter characterization 50 driving parameter；

Described control unit 53, first touch area for controlling the touch control unit 50 export second ginseng Number.

Wherein, second parameter after adjustment and the first parameter positive correlation.

Specifically, the analysis and processing unit 52, for determining that the maximum position of first parameter is touched for described first Control the central point of subregion and the second touch-control subregion；First touch-control sub-district is determined by the first radius based on the central point Domain；Second touch-control subregion is determined by the second radius based on the central point；Wherein, first radius is not equal to described second Radius；First radius and the size of the touch area have the first proportionate relationship；Second radius and the touch-control The size in region has the second proportionate relationship；First proportionate relationship and second proportionate relationship with first parameter Positive correlation.

It will be appreciated by those skilled in the art that in the electronic equipment of the embodiment of the present invention each processing unit function, can join Understand, each processing unit in the electronic equipment of the embodiment of the present invention according to the associated description of foregoing interference processing method, can pass through Realize the analog circuit of the function described in the embodiment of the present invention and realize, can also be by performing the work(described in the embodiment of the present invention Can operation of the software on intelligent terminal and realize.

In the embodiment of the present invention four and embodiment five, analysis and processing unit 52 and control unit in the electronic equipment 53, in actual applications can by the central processing unit (CPU, Central Processing Unit) in the electronic equipment, Digital signal processor (DSP, Digital Signal Processor) or programmable gate array (FPGA, Field- Programmable Gate Array) realize；Touch control unit 50 in the electronic equipment, in actual applications can be by described Capacitance type touch control screen in electronic equipment is realized；Detection unit 51 in the electronic equipment, in actual applications can be by described Sensor (such as range sensor) in electronic equipment is realized.

It should be understood by those skilled in the art that, embodiments of the invention can be provided as method, system or computer program Product.Therefore, the shape of the embodiment in terms of the present invention can use hardware embodiment, software implementation or combination software and hardware Formula.Moreover, the present invention can use the computer for wherein including computer usable program code in one or more to use storage The form for the computer program product that medium is implemented on (including but is not limited to magnetic disk storage and optical memory etc.).

The present invention is the flow with reference to method according to embodiments of the present invention, equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that can be by every first-class in computer program instructions implementation process figure and/or block diagram Journey and/or the flow in square frame and flow chart and/or block diagram and/or the combination of square frame.These computer programs can be provided The processors of all-purpose computer, special-purpose computer, Embedded Processor or other programmable data processing devices is instructed to produce A raw machine so that produced by the instruction of computer or the computing device of other programmable data processing devices for real The device for the function of being specified in present one flow of flow chart or one square frame of multiple flows and/or block diagram or multiple square frames.

These computer program instructions, which may be alternatively stored in, can guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works so that the instruction being stored in the computer-readable memory, which produces, to be included referring to Make the manufacture of device, the command device realize in one flow of flow chart or multiple flows and/or one square frame of block diagram or The function of being specified in multiple square frames.

These computer program instructions can be also loaded into computer or other programmable data processing devices so that counted Series of operation steps is performed on calculation machine or other programmable devices to produce computer implemented processing, so as in computer or The instruction performed on other programmable devices is provided for realizing in one flow of flow chart or multiple flows and/or block diagram one The step of function of being specified in individual square frame or multiple square frames.

The foregoing is only a preferred embodiment of the present invention, is not intended to limit the scope of the present invention.

Claims (10)

1. one kind interference processing method, methods described include：

Detect the first parameter of the touch control unit of electronic equipment；The deformation degree of touch control unit described in first parameter characterization；

The first touch area of the touch control unit is determined based on first parameter, and based on described in first parameter adjustment Second parameter of the first touch area；The driving parameter of touch control unit described in second parameter characterization；

First touch area of the touch control unit is controlled to export second parameter.

2. according to the method for claim 1, it is characterised in that second parameter and first parameter after adjustment are just It is related.

3. according to the method for claim 1, it is characterised in that described that the touch control unit is determined based on first parameter The first touch area, including：

The central point of first touch area is determined based on first parameter, the first touch-control sub-district is determined by the central point Domain and the second touch-control subregion；First touch area includes the first touch-control subregion and the second touch-control subregion；

Wherein, the central point of the first touch-control subregion and the second touch-control subregion overlaps, and first touch-control The area in region is not equal to the area of the second touch-control subregion.

4. according to the method for claim 3, it is characterised in that described that first touch-control is determined based on first parameter The central point in region, the first touch-control subregion and the second touch-control subregion are determined by the central point, including：

Determine center of the maximum position of first parameter for the first touch-control subregion and the second touch-control subregion Point；

First touch-control subregion is determined by the first radius based on the central point；

Second touch-control subregion is determined by the second radius based on the central point；

Wherein, first radius is not equal to second radius；First radius and the size of the touch area have First proportionate relationship；Second radius and the size of the touch area have the second proportionate relationship；First ratio is closed System with second proportionate relationship with the first parameter positive correlation.

5. according to the method for claim 3, it is characterised in that when the area of the second touch-control subregion is more than described the During the area of one touch-control subregion, second parameter based on the first touch area described in first parameter adjustment, including：

The second parameter for adjusting the first touch-control subregion is M1；

The second parameter for adjusting the touch area in the second touch-control subregion and outside the first touch-control subregion is M2；

Wherein, M1 is not equal to M2；M1 and M2 with the first parameter positive correlation.

6. a kind of electronic equipment, the electronic equipment includes：Touch control unit, detection unit, analysis and processing unit and control unit； Wherein,

The detection unit, for detecting the first parameter of touch control unit；The shape of touch control unit described in first parameter characterization Change degree；

The analysis and processing unit, for determining the touch control unit based on first parameter that the detection unit detects First touch area, and based on the second parameter of the first touch area described in first parameter adjustment；Second parameter list Levy the driving parameter of the touch control unit；

Described control unit, for controlling first touch area of the touch control unit to export second parameter.

7. electronic equipment according to claim 6, it is characterised in that second parameter and the described first ginseng after adjustment Number positive correlation.

8. electronic equipment according to claim 6, it is characterised in that the analysis and processing unit, for based on described One parameter determines the central point of first touch area, and the first touch-control subregion and the second touch-control are determined by the central point Region；First touch area includes the first touch-control subregion and the second touch-control subregion；Wherein, first touch-control The central point of subregion and the second touch-control subregion overlaps, and the area of the first touch-control subregion is not equal to described the The area of two touch-control subregions.

9. electronic equipment according to claim 8, it is characterised in that the analysis and processing unit, for determining described The maximum position of one parameter is the first touch-control subregion and the central point of the second touch-control subregion；Based on the center Press the first radius and determine the first touch-control subregion；Second touch-control subregion is determined by the second radius based on the central point；Its In, first radius is not equal to second radius；The size of first radius and the touch area has the first ratio Example relation；Second radius and the size of the touch area have the second proportionate relationship；First proportionate relationship and institute State the second proportionate relationship with the first parameter positive correlation.

10. electronic equipment according to claim 8, it is characterised in that the analysis and processing unit, for when described second When the area of touch-control subregion is more than the area of the first touch-control subregion, the second ginseng of the first touch-control subregion is adjusted Number is M1；The second parameter for adjusting the touch area in the second touch-control subregion and outside the first touch-control subregion is M2；Wherein, M1 is not equal to M2；M1 and M2 with the first parameter positive correlation.