CN104111724A - Information processing method and electronic equipment - Google Patents

Abstract

The invention discloses an information processing method and electronic equipment and aims to achieve the technical effect of improving accuracy of touch feedback. The information processing method is applied to the electronic equipment with a touch sensing unit. The method includes when a first touch operation produced by a first touch member is provided to the surface of the touch sensing unit, detecting and acquiring the first contact area between the first touch member and the touch sensing unit; according to the correspondence between the contact area and the touch feedback parameters, determining first touch parameters corresponding to the first contact area; responding to the first touch operation, and producing a first touch feedback corresponding to the first touch parameters.

Description

A kind of method of information processing and electronic equipment

Technical field

The present invention relates to human-computer interaction technique field, particularly a kind of method of information processing and electronic equipment.

Background technology

Along with scientific and technical development, electronic technology has also obtained development at full speed, and the kind of electronic product is also more and more, and wherein, electronic equipment can adopt multiple input modes, such as: mouse, keyboard, touch screen, sound etc.Wherein, with the electronic equipment of touch screen, particularly with the mobile terminal of touch screen, because its input mode intuitively facilitates, so obtained more and more users' welcome.

Wherein, in the time detecting that touch screen surface exists touch control operation, electronic equipment can produce a touch-control feedback to described touch control operation under normal circumstances, and described touch-control feedback case is as being: charge feedback, vibrational feedback etc.

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:

Due in the prior art, while carrying out touch-control feedback for touch control operation, only can whether successfully point out touch control operation, but can not provide more detailed feedback for the difference of touch control operation, so exist the accurate not technique effect of touch-control feedback in prior art.

Summary of the invention

The embodiment of the present invention provides a kind of method and electronic equipment of information processing, in order to solve the accurate not technical matters of touch-control feedback in prior art.

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

A method for information processing, described method is applied in the electronic equipment that includes touch-control sensing unit, and described method comprises:

In the time that described touch-control sensing cell surface exists the first touch control operation being produced by the first touch-control body, detect the first contact area obtaining between described the first touch-control body and described touch-control sensing unit;

Based on the corresponding relation between contact area and touch-control feedback parameter, determine and corresponding the first touch parameter of described the first contact area;

Respond described the first touch control operation, produce a first touch-control feedback corresponding with described the first touch parameter.

Optionally, be capacitance touching control sensing unit in described touch-control sensing unit, and while being provided with N electrode in described capacitance touching control sensing unit bottom, described detection obtains the first contact area between described the first touch-control body and described touch-control sensing unit, specifically comprises:

From a described N electrode, determine M electrode based on described the first touch control operation, wherein, M is any positive integer that is less than or equal to N;

Determine described the first contact area based on a described M electrode.

Optionally, while being infrared touch-control sensing unit in described touch-control sensing unit, described detection obtains the first contact area between described the first touch-control body and described touch-control sensing unit, specifically comprises:

Determine the first infrared occlusion area that described the first touch control operation forms at described touch-control sensing cell surface;

Determine described the first contact area based on described the first occlusion area.

Optionally, described the first touch parameter, is specially: the feedback parameter that produces the first predetermined amount electric charge at described touch-control sensing cell surface.

Optionally, the described corresponding relation based between contact area and touch-control feedback parameter, determines and corresponding the first touch parameter of described the first contact area, specifically comprises:

Determine the corresponding unit charge amount of unit contact area;

Determine described the first predetermined amount based on described the first contact area and described unit charge amount;

Determine described the first touch parameter based on described the first predetermined amount.

Optionally, the described corresponding relation based between contact area and touch-control feedback parameter, determines and corresponding the first touch parameter of described the first contact area, specifically comprises:

Determine the first contact area interval range at described the first contact area place;

Based on the corresponding relation of contact area interval range and touch-control feedback parameter, determine corresponding the first touch parameter of described the first contact area interval range.

Optionally, described the first touch parameter, is specially: the feedback parameter that adopts the first predetermined manner to shake; Or the feedback parameter that adopts the second predetermined amount salient point to feed back; Or the feedback parameter that adopts the 3rd default sound to feed back; Or the feedback parameter that adopts the 4th default light efficiency to feed back.

Optionally, described the first touch control operation of described response, produces a first touch-control feedback corresponding with described the first touch parameter, specifically comprises:

Determine described the first corresponding first area of touch control operation;

Respond described the first touch control operation, produce described the first touch-control feedback in described first area.

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

A kind of electronic equipment, described electronic equipment comprises touch-control sensing unit, described electronic equipment also comprises:

Detection module, in the time that described touch-control sensing cell surface exists the first touch control operation being produced by the first touch-control body, detects the first contact area obtaining between described the first touch-control body and described touch-control sensing unit;

Determination module, for the corresponding relation based between contact area and touch-control feedback parameter, determines and corresponding the first touch parameter of described the first contact area;

Respond module, for responding described the first touch control operation, produces a first touch-control feedback corresponding with described the first touch parameter.

Optionally, be capacitance touching control sensing unit in described touch-control sensing unit, and while being provided with N electrode in described capacitance touching control sensing unit bottom, described detection module, specifically comprises:

The first determining unit, for determining M electrode based on described the first touch control operation from a described N electrode, wherein, M is any positive integer that is less than or equal to N;

The second determining unit, for determining described the first contact area based on a described M electrode.

Optionally, while being infrared touch-control sensing unit in described touch-control sensing unit, described detection module, specifically comprises:

The 3rd determining unit, for the first infrared occlusion area of determining that described the first touch control operation forms at described touch-control sensing cell surface;

The 4th determining unit, for determining described the first contact area based on described the first occlusion area.

Optionally, described the first touch parameter, is specially: the feedback parameter that produces the first predetermined amount electric charge at described touch-control sensing cell surface.

Optionally, described determination module, specifically comprises:

The 5th determining unit, for determining the corresponding unit charge amount of unit contact area;

The 6th determining unit, for determining described the first predetermined amount based on described the first contact area and described unit charge amount;

The 7th determining unit, for determining described the first touch parameter based on described the first predetermined amount.

Optionally, described determination module, specifically comprises:

The 8th determining unit, for determining the first contact area interval range at described the first contact area place;

The 9th determining unit, for the corresponding relation based on contact area interval range and touch-control feedback parameter, determines corresponding the first touch parameter of described the first contact area interval range.

Optionally, described the first touch parameter, is specially: the feedback parameter that adopts the first predetermined manner to shake; Or the feedback parameter that adopts the second predetermined amount salient point to feed back; Or the feedback parameter that adopts the 3rd default sound to feed back; Or the feedback parameter that adopts the 4th default light efficiency to feed back.

Optionally, described respond module, specifically comprises:

The 8th determining unit, for determining described the first corresponding first area of touch control operation;

Response unit, for responding described the first touch control operation, produces described the first touch-control feedback in described first area.

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, in the time there is the first touch control operation being produced by the first touch-control body in the touch-control sensing cell surface of electronic equipment, first determine the first contact area of described the first touch-control body and described touch-control sensing unit, then the difference based on described the first contact area, produce the first different touch-control feedbacks, namely can the difference based on touch control operation produce more detailed feedback for the first touch control operation, so reached the more accurate technique effect of touch-control feedback.

(2) due in the embodiment of the present application, described the first touch parameter can be the touch parameter of various ways, for example: described touch-control sensing cell surface produce the first predetermined amount electric charge feedback parameter, adopt the feedback parameter that shakes of the first predetermined manner, adopt feedback parameter that the second predetermined amount salient point feeds back, adopt feedback parameter that the 3rd default sound feeds back, adopt feedback parameter that the 4th default light efficiency feeds back etc., so reached the more diversified technique effect of touch-control feedback system.

(3) due in the embodiment of the present application, be in the time that described touch-control sensing cell surface produces the feedback system of the first predetermined amount electric charge at described the first touch parameter, can determine described the first predetermined amount by unit charge amount and the first contact area, and then definite described the first touch parameter, so the quantity of electric charge of the touch-control can guarantor unit's contact area producing feedback is identical, thereby further reach the more accurate technique effect of the control of touch-control feedback.

(4) due in the embodiment of the present application, can also first determine corresponding the first contact area interval range of described the first contact area, and then determine described the first touch parameter by described the first contact area interval range, so reach the more diversified technique effect of definite touch-control feedback parameter.

Brief description of the drawings

Fig. 1 is the process flow diagram of the method for information processing in the embodiment of the present application one;

Fig. 2 is the process flow diagram of determining the first kind of way of the first contact area in the embodiment of the present application one method;

Fig. 3 is the process flow diagram of determining the second way of the first contact area in the embodiment of the present application one method;

Fig. 4 determines in the embodiment of the present application one method and the process flow diagram of the first kind of way of corresponding the first touch parameter of described the first contact area;

Fig. 5 determines in the embodiment of the present application one method and the process flow diagram of the second way of corresponding the first touch parameter of described the first contact area;

Fig. 6 is the structural drawing of electronic equipment in the embodiment of the present application three.

Embodiment

The embodiment of the present invention provides a kind of method and electronic equipment of information processing, in order to solve the accurate not technical matters of touch-control feedback in prior art.

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 there is the first touch control operation being produced by the first touch-control body in the touch-control sensing cell surface of electronic equipment, detect the first contact area obtaining between described the first touch-control body and described touch-control sensing unit, wherein, if described touch-control sensing unit is capacitance touching control sensing unit, can determine described the first contact area by the multiple electrodes that are arranged at described capacitance touching control sensing unit bottom so; Corresponding relation based between contact area and touch-control feedback parameter is determined and corresponding the first touch parameter of described the first contact area, wherein, described the first touch parameter can be the touch-control feedback parameter of various ways, for example: produce the feedback parameter of the first predetermined amount electric charge, feedback parameter that employing the first predetermined manner shakes etc. at described touch-control sensing cell surface; Respond described the first touch control operation, produce a first touch-control feedback corresponding with described the first touch parameter.

While carrying out touch-control feedback due to the first touch control operation that adopts such scheme to produce the first operating body, first determine the first contact area of described the first touch-control body and described touch-control sensing unit, then the difference based on described the first contact area, produce the first different touch-control feedbacks, namely can the difference based on touch control operation produce more detailed feedback for the first touch control operation, so reached the more accurate technique effect of touch-control feedback.

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 the electronic equipment that includes touch-control sensing unit, and described electronic equipment is for example: notebook computer, panel computer, mobile phone etc.Described touch-control sensing unit is for example: touching display screen, Trackpad etc.

Please refer to Fig. 1, the method for described information processing comprises the steps:

Step S101: in the time that described touch-control sensing cell surface exists the first touch control operation being produced by the first touch-control body, detect the first contact area obtaining between described the first touch-control body and described touch-control sensing unit;

Step S102: based on the corresponding relation between contact area and touch-control feedback parameter, determine and corresponding the first touch parameter of described the first contact area;

Step S103: respond described the first touch control operation, produce a first touch-control feedback corresponding with described the first touch parameter.

In specific implementation process, in step S101, can adopt various ways to detect described the first contact area, 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, is capacitance touching control sensing unit in described touch-control sensing unit, and while being provided with N electrode in described capacitance touching control sensing unit bottom, please refer to Fig. 2, specifically comprises the steps:

Step S201: determine M electrode from a described N electrode based on described the first touch control operation, wherein, M is any positive integer that is less than or equal to N;

Step S202: determine described the first contact area based on a described M electrode.

In specific implementation process, capacitance touching control sensing unit bottom X-direction and Y direction are respectively arranged with multiple X-axis draw runners and Y-axis draw runner, these multiple X-axis draw runners and point of crossing of the every formation of Y-axis draw runner are just an electrode, and then form N electrode in described capacitance touching control sensing unit bottom.

Wherein, in step S201, in the time that described the first touch control operation acts on described capacitance touching control sensing unit surface, by the capacitance variations of a described N electrode, and then just can determine a described first touch control operation region corresponding M electrode;

Wherein, in step S202, in specific implementation process, can directly characterize described the first contact area by the quantity of a described M electrode, also can determine described the first contact area based on a described M electrode, under normal circumstances, the corresponding unit of each electrode electrode contact area is identical, by unit electrode contact area and namely number of electrodes of M() multiply each other, just can determine described the first contact area.

The second, while being infrared touch-control sensing unit, please refer to Fig. 3 in described touch-control sensing unit, specifically comprises the steps:

Step S301: determine the first infrared occlusion area that described the first touch control operation forms at described touch-control sensing cell surface;

Step S302: determine described the first contact area based on described the first occlusion area.

In specific implementation process, while being infrared touch-control sensing unit in described touch-control sensing unit, described infrared touch-control sensing unit can produce multiple infrared signals by multiple infrared transmitters of X-direction and Y direction.In step S301, there is described the first touch control operation at described infrared touch-control sensing cell surface, described the first operating body can cause and block infrared signal, make corresponding infrared remote receiver cannot receive corresponding infrared signal, and then determine multiple infrared blocking a little, thereby determine described the first infrared occlusion area.

Wherein, in step S302, can, directly by described multiple infrared described first contact area of sign of blocking, also can, with a little conversing described the first contact area by described infrared blocking, this embodiment of the present application be restricted.

Wherein, in step S102, described the first touch parameter can be the touch-control feedback parameter of various ways, and five kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, is not limited to following five kinds of situations.

The first, described the first touch parameter, is specially: the feedback parameter that produces the first predetermined amount electric charge at described touch-control sensing cell surface.

In specific implementation process, can give described capacitance touching control sensing unit two ends a logical upper voltage, wherein, based on the big or small difference of described voltage, the quantity of described the first predetermined amount electric charge is also different.In this case, can adopt various ways to determine described the first touch parameter, two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, are not limited to following two kinds of situations.

(1) please refer to Fig. 4, specifically comprise the steps:

Step S401: determine the corresponding unit charge amount of unit contact area;

Step S402: determine described the first predetermined amount based on described the first contact area and described unit charge amount;

Step S403: determine described the first touch parameter based on described the first predetermined amount.

Wherein, in step S401, can preset a unit charge amount, namely determine the identical quantity of electric charge for unit contact area, so that use the user of described electronic equipment in the time of described touch-display unit surface generation touch control operation, even if its contact area difference is identical but the electric charge of experiencing stimulates, suppose that described unit charge amount is: a(C/cm ²), wherein, a can be arbitrary value, the embodiment of the present application is not restricted.

Wherein, in step S402, owing to having determined described the first contact area in step S101, be assumed to be: b(cm ²), so by the product of described the first contact area and described unit charge amount, just can determine described the first predetermined amount is: a*b(C), be specially so determine described the first touch parameter: produce a*b(C at described touch-control sensing cell surface) feedback system of electric charge.The difference of the corresponding quantity of electric charge, its feedback parameter is different feedback parameter, so described electronic equipment can comprise various feedback parameter for same feedback system.

Wherein, in step S403, after determining described the first predetermined amount based on step S402, just can feed back described the first touch control operation by described the first predetermined amount electric charge, in specific implementation process, can pass through to adjust the voltage at described touch-display unit two ends, and then produce described the first predetermined amount electric charge on described touch-display unit surface.

As seen from the above description, due in the embodiment of the present application, for example be at described the first touch parameter: in the time that described touch-control sensing cell surface produces the feedback parameter of the first predetermined amount electric charge, can determine described the first predetermined amount by unit charge amount and the first contact area, and then definite described the first touch parameter, so the quantity of electric charge of the touch-control can guarantor unit's contact area producing feedback is identical, thereby further reach the more accurate technique effect of the control of touch-control feedback.

(2) please refer to Fig. 5, specifically comprise the steps:

Step S501: the first contact area interval range of determining described the first contact area place;

Step S502: based on the corresponding relation of contact area interval range and touch-control feedback parameter, determine corresponding the first touch parameter of described the first contact area interval range.

Wherein, in step S501, suppose to store the corresponding relation between multiple contact area regional extents and multiple predetermined amount electric charge in described electronic equipment, suppose as shown in table 1:

Table 1

Contact area interval range (cm 2）	Predetermined amount electric charge (C)
		a1～a2	a
b1～b2	b
		c1～c2	c

Wherein, suppose that the first contact area is still cited b(cm above ²), its place interval range is: b1～b2.

So, in step S502, can determine that described is b(C to touch-control feedback parameter for producing quantity at described touch-control sensing cell surface) and the feedback system of electric charge.

As seen from the above description, due in the embodiment of the present application, can also first determine corresponding the first contact area interval range of described the first contact area, and then determine described the first touch parameter by described the first contact area interval range, so reach the more diversified technique effect of definite touch-control feedback parameter.

The second, described the first touch parameter, is specially: the feedback parameter that adopts the first predetermined manner to shake.

In specific implementation process, described the first predetermined manner also can be divided into various ways, and then described feedback system is also different, and two kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, are not limited to following two kinds of situations.

(1) only controlling described touch-display unit shakes, for example: be provided with multiple motors in described touch-control sensing unit bottom, use the user of described electronic equipment just to have sense of touch by the vibrations of motor, wherein, based on the difference of the first contact area, can adopt the motor of varying number to shake, and then produce different senses of touch;

(2) control described electronic equipment and shake, for example: multiple motors are set on described electronic equipment, and wherein, user's finger does not have sense of touch, but can experience electronic equipment in vibrations; Wherein, difference that can be based on the first contact area, adopts the motor of varying number to shake; Also difference that can be based on the first contact area, shakes etc. in the zones of different of described electronic equipment.

The third, described the first touch parameter, is specially: the feedback parameter that adopts the second predetermined amount salient point to feed back.

In specific implementation process, described touch-display unit can be flexible touch-display unit, in described flexible touch-display unit bottom, multiple dot matrix are set, then controlling described multiple dot matrix just can make described flexible touch-display unit surface produce the first predetermined number salient point, and then described the first touch control operation is fed back, wherein, based on the difference of described the first surface of contact, described the first predetermined number is also different, and then produces different touch-control feedbacks.

The 4th kind, described the first touch parameter, is specially: the feedback system that adopts the 3rd default sound to feed back.

In specific implementation process, corresponding relations that can be based on arranging between many group contacts area and feedback sound, such as: contact area when less, the contact area of hour feedback sound is larger feedback sound larger; Adopt the sound of predeterminated frequency to feed back, contact area when lower, the contact area of hour sound frequency is larger sound lower etc., which kind of presets sound for the described the 3rd default sound for, the embodiment of the present application is not restricted.

The 5th kind, described the first touch parameter, is specially: the feedback parameter that adopts the 4th default light efficiency to feed back.

Such as: in contact area, hour light efficiency is comparatively faint, in the time that contact area is larger, light efficiency is comparatively strong; Or adopt the light efficiency that certain frequency glimmers to feed back, for example: contact area hour flicker comparatively slowly, in the time that contact area is larger flicker comparatively frequent etc., actually corresponding with which kind of light efficiency for described the first feedback parameter, the embodiment of the present application is not restricted.

In specific implementation process, described the first touch parameter can be only the one in multiple touch parameter, for example: be the parameter of feeding back by static, parameter of feeding back by salient point etc.; Described the first touch parameter can be also the combination of above-mentioned multiple touch parameter, for example: be combination of the parameter of the parameter fed back by static and vibrational feedback etc., to this, the embodiment of the present application no longer itemizes, and is not restricted.

As seen from the above description, due in the embodiment of the present application, described the first touch parameter can be the touch parameter of various ways, for example: described touch-control sensing cell surface produce the first predetermined amount electric charge feedback parameter, adopt the feedback parameter that shakes of the first predetermined manner, adopt feedback parameter that the second predetermined amount salient point feeds back, adopt feedback parameter that the 3rd default sound feeds back, adopt feedback parameter that the 4th default light efficiency feeds back etc., so reached the more diversified technique effect of touch-control feedback system.

In specific implementation process, in step S103, respond described the first touch control operation, produce a first touch-control feedback corresponding with described the first touch parameter, also can be divided into multiple situation, two kinds that enumerate below are wherein introduced, certainly, in specific implementation process, be not limited to following two kinds of situations.

The first, specifically comprises the steps: to determine described the first corresponding first area of touch control operation; Respond described the first touch control operation, produce described the first touch-control feedback in described first area.

In specific implementation process, described first area can be determined in several ways, for example: while being capacitance touching control sensing unit in described touch-control sensing unit, can and then determine described first area by the capacitance variations of described capacitance touching control sensing unit; Again for example: if described touch-control sensing unit is infrared touch-control sensing unit, can determine described first area etc. by the circumstance of occlusion of the infrared signal of described infrared touch-control sensing unit.After determining described first area, produce described the first touch-control feedback for described first area, for example: produce the first predetermined amount static, produce predetermined amount salient point etc. for described first area for described first area, and then make described user's the finger that carries out touch control operation can experience described tactile feedback.

The second, produces described the first touch-control feedback for described electronic equipment, specifically, namely described the first touch-control feedback and described the first touch control operation region do not have associated, for example: shake described electronic equipment.

Embodiment bis-

In order to make those skilled in the art further understand the method for the information processing that the embodiment of the present application one introduces, to stand in user's side and introduce the method for the information processing that the embodiment of the present application introduces in the present embodiment, wherein, taking described electronic equipment as mobile phone as example is introduced, the touch screen of described mobile phone is capacitance type touch control screen, characterize described the first contact area with the corresponding number of electrodes of touch control operation in the present embodiment, described unit charge amount is characterized by the corresponding quantity of electric charge of unit electrode, is assumed to be: c (C).

In the T1 moment, described mobile phone is in screen lock state.

In the T2 moment, user A produces the touch control operation that a first object body of controlling described mobile phone surface is moved to the right by the left side of the touch screen of described mobile phone; After described mobile phone detects described touch control operation, determine the number of electrodes of the corresponding capacitance type touch control screen of described touch control operation, be assumed to be N, then described electronic equipment is by the product of a described N electrode and described unit charge amount, and then determine described the first predetermined amount electric charge and be: N*c (C), and then determine first voltage at described touching display screen two ends based on described the first predetermined amount electric charge.Described mobile phone determines that first area, described touch control operation place is simultaneously: (100px～120px, 60px～80px);

In the T3 moment, described electronic equipment is logical the above first voltage in described first area, and then be controlled at the electric charge of described touching display screen surface generation N*c (C), described touch control operation is produced to a touch-control feedback.

Embodiment tri-

Based on same inventive concept, the embodiment of the present application three provides a kind of electronic equipment, described electronic equipment comprises touch-control sensing unit, and described electronic equipment is for example: notebook computer, mobile phone, panel computer etc., described touch-control sensing unit is for example: touching display screen, Trackpad etc.

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

Detection module 601, in the time that described touch-control sensing cell surface exists the first touch control operation being produced by the first touch-control body, detects the first contact area obtaining between described the first touch-control body and described touch-control sensing unit;

Determination module 602, for the corresponding relation based between contact area and touch-control feedback parameter, determines and corresponding the first touch parameter of described the first contact area;

Respond module 603, for responding described the first touch control operation, produces a first touch-control feedback corresponding with described the first touch parameter.

In specific implementation process, described detection module 601 can adopt various ways to detect described the first contact area, and then the functional module that described detection module 601 comprises is also different, two kinds that enumerate below are wherein introduced, certainly, in specific implementation process, be not limited to following two kinds of situations.

The first, is capacitance touching control sensing unit in described touch-control sensing unit, and while being provided with N electrode in described capacitance touching control sensing unit bottom, described detection module 601, specifically comprises:

The first determining unit, for determining M electrode based on described the first touch control operation from a described N electrode, wherein, M is any positive integer that is less than or equal to N;

The second determining unit, for determining described the first contact area based on a described M electrode.

The second, while being infrared touch-control sensing unit in described touch-control sensing unit, described detection module 601, specifically comprises:

The 3rd determining unit, for the first infrared occlusion area of determining that described the first touch control operation forms at described touch-control sensing cell surface;

The 4th determining unit, for determining described the first contact area based on described the first occlusion area.

In specific implementation process, described the first touch parameter can be various ways, and three kinds that enumerate below are wherein introduced, and certainly, in specific implementation process, is not limited to following three kinds of situations.

The first, described the first touch parameter, is specially: the feedback parameter that produces the first predetermined amount electric charge at described touch-control sensing cell surface.

In this case, described determination module 602 can adopt various ways to determine described the first touch parameter, and then its functional module comprising is also different, two kinds that enumerate below are wherein introduced, certainly,, in specific implementation process, be not limited to following two kinds of situations.

(1) described determination module 602, specifically comprises:

The 5th determining unit, for determining the corresponding unit charge amount of unit contact area;

The 6th determining unit, for determining described the first predetermined amount based on described the first contact area and described unit charge amount;

The 7th determining unit, for determining described the first touch parameter based on described the first predetermined amount.

As seen from the above description, due in the embodiment of the present application, for example be at described the first touch parameter: in the time that described touch-control sensing cell surface produces the feedback parameter of the first predetermined amount electric charge, can determine described the first predetermined amount by unit charge amount and the first contact area, and then definite described the first touch parameter, so the quantity of electric charge of the touch-control can guarantor unit's contact area producing feedback is identical, thereby further reach the more accurate technique effect of the control of touch-control feedback.

(2) described determination module 602, specifically comprises:

The 8th determining unit, for determining the first contact area interval range at described the first contact area place;

The 9th determining unit, for the corresponding relation based on contact area interval range and touch-control feedback parameter, determines corresponding the first touch parameter of described the first contact area interval range.

As seen from the above description, due in the embodiment of the present application, can also first determine corresponding the first contact area interval range of described the first contact area, and then determine described the first touch parameter by described the first contact area interval range, so reach the more diversified technique effect of definite touch-control feedback parameter.

The second, described the first touch parameter is specially: the feedback parameter that adopts the first predetermined manner to shake.

The third, described the first touch parameter is specially: the feedback parameter that adopts the second predetermined amount salient point to feed back.

The 4th kind, described the first touch parameter is specially: the feedback parameter that adopts the 3rd default sound to feed back;

The 5th kind, described the first touch parameter is specially: the feedback parameter that adopts the 4th default light efficiency to feed back.

As seen from the above description, due in the embodiment of the present application, described the first touch parameter can be the touch parameter of various ways, for example: described touch-control sensing cell surface produce the first predetermined amount electric charge feedback parameter, adopt the feedback parameter that shakes of the first predetermined manner, adopt feedback parameter that the second predetermined amount salient point feeds back, adopt feedback parameter that the 3rd default sound feeds back, adopt feedback parameter that the 4th default light efficiency feeds back etc., so reached the more diversified technique effect of touch-control feedback system.

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

The 8th determining unit, for determining described the first corresponding first area of touch control operation;

Response unit, for responding described the first touch control operation, produces described the first touch-control feedback in described first area.

The electronic equipment of introducing due to the embodiment of the present application three, the electronic equipment adopting for implementing the method for information processing in the embodiment of the present application one, embodiment bis-, so method of the information processing of introducing based on the embodiment of the present application one, embodiment bis-, the concrete structure that those skilled in the art can understand the electronic equipment in the present embodiment three 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 the method for information processing in the embodiment of the present application one, embodiment bis-adopts, 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, in the time there is the first touch control operation being produced by the first touch-control body in the touch-control sensing cell surface of electronic equipment, first determine the first contact area of described the first touch-control body and described touch-control sensing unit, then the difference based on described the first contact area, produce the first different touch-control feedbacks, namely can the difference based on touch control operation produce more detailed feedback for the first touch control operation, so reached the more accurate technique effect of touch-control feedback.

(2) due in the embodiment of the present application, described the first touch parameter can be the touch parameter of various ways, for example: described touch-control sensing cell surface produce the first predetermined amount electric charge feedback parameter, adopt the feedback parameter that shakes of the first predetermined manner, adopt feedback parameter that the second predetermined amount salient point feeds back, adopt feedback parameter that the 3rd default sound feeds back, adopt feedback parameter that the 4th default light efficiency feeds back etc., so reached the more diversified technique effect of touch-control feedback system.

(3) due in the embodiment of the present application, be in the time that described touch-control sensing cell surface produces the feedback system of the first predetermined amount electric charge at described the first touch parameter, can determine described the first predetermined amount by unit charge amount and the first contact area, and then definite described the first touch parameter, so the quantity of electric charge of the touch-control can guarantor unit's contact area producing feedback is identical, thereby further reach the more accurate technique effect of the control of touch-control feedback.

(4) due in the embodiment of the present application, can also first determine corresponding the first contact area interval range of described the first contact area, and then determine described the first touch parameter by described the first contact area interval range, so reach the more diversified technique effect of definite touch-control feedback parameter.

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 amendment to these embodiment.So claims are intended to be interpreted as comprising preferred embodiment and fall into all changes and the amendment 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 these amendments of the present invention and within 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 (16)

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

In the time that described touch-control sensing cell surface exists the first touch control operation being produced by the first touch-control body, detect the first contact area obtaining between described the first touch-control body and described touch-control sensing unit;

Based on the corresponding relation between contact area and touch-control feedback parameter, determine and corresponding the first touch parameter of described the first contact area;

Respond described the first touch control operation, produce a first touch-control feedback corresponding with described the first touch parameter.

2. the method for claim 1, it is characterized in that, be capacitance touching control sensing unit in described touch-control sensing unit, and while being provided with N electrode in described capacitance touching control sensing unit bottom, described detection obtains the first contact area between described the first touch-control body and described touch-control sensing unit, specifically comprises:

From a described N electrode, determine M electrode based on described the first touch control operation, wherein, M is any positive integer that is less than or equal to N;

Determine described the first contact area based on a described M electrode.

3. the method for claim 1, is characterized in that, while being infrared touch-control sensing unit in described touch-control sensing unit, described detection obtains the first contact area between described the first touch-control body and described touch-control sensing unit, specifically comprises:

Determine the first infrared occlusion area that described the first touch control operation forms at described touch-control sensing cell surface;

Determine described the first contact area based on described the first occlusion area.

4. the method for claim 1, is characterized in that, described the first touch parameter, is specially: the feedback parameter that produces the first predetermined amount electric charge at described touch-control sensing cell surface.

5. method as claimed in claim 4, is characterized in that, the described corresponding relation based between contact area and touch-control feedback parameter is determined and corresponding the first touch parameter of described the first contact area, specifically comprises:

Determine the corresponding unit charge amount of unit contact area;

Determine described the first predetermined amount based on described the first contact area and described unit charge amount;

Determine described the first touch parameter based on described the first predetermined amount.

6. method as claimed in claim 4, is characterized in that, the described corresponding relation based between contact area and touch-control feedback parameter is determined and corresponding the first touch parameter of described the first contact area, specifically comprises:

Determine the first contact area interval range at described the first contact area place;

Based on the corresponding relation of contact area interval range and touch-control feedback parameter, determine corresponding the first touch parameter of described the first contact area interval range.

7. the method for claim 1, is characterized in that, described the first touch parameter, is specially: the feedback parameter that adopts the first predetermined manner to shake; Or the feedback parameter that adopts the second predetermined amount salient point to feed back; Or the feedback parameter that adopts the 3rd default sound to feed back; Or the feedback parameter that adopts the 4th default light efficiency to feed back.

8. the method for claim 1, is characterized in that, described the first touch control operation of described response produces a first touch-control feedback corresponding with described the first touch parameter, specifically comprises:

Determine described the first corresponding first area of touch control operation;

Respond described the first touch control operation, produce described the first touch-control feedback in described first area.

9. an electronic equipment, described electronic equipment comprises touch-control sensing unit, it is characterized in that, described electronic equipment also comprises:

Detection module, in the time that described touch-control sensing cell surface exists the first touch control operation being produced by the first touch-control body, detects the first contact area obtaining between described the first touch-control body and described touch-control sensing unit;

Determination module, for the corresponding relation based between contact area and touch-control feedback parameter, determines and corresponding the first touch parameter of described the first contact area;

Respond module, for responding described the first touch control operation, produces a first touch-control feedback corresponding with described the first touch parameter.

10. electronic equipment as claimed in claim 9, is characterized in that, is capacitance touching control sensing unit in described touch-control sensing unit, and while being provided with N electrode in described capacitance touching control sensing unit bottom, described detection module, specifically comprises:

The first determining unit, for determining M electrode based on described the first touch control operation from a described N electrode, wherein, M is any positive integer that is less than or equal to N;

The second determining unit, for determining described the first contact area based on a described M electrode.

11. electronic equipments as claimed in claim 9, is characterized in that, while being infrared touch-control sensing unit in described touch-control sensing unit, described detection module, specifically comprises:

The 3rd determining unit, for the first infrared occlusion area of determining that described the first touch control operation forms at described touch-control sensing cell surface;

The 4th determining unit, for determining described the first contact area based on described the first occlusion area.

12. electronic equipments as claimed in claim 9, is characterized in that, described the first touch parameter, is specially: the feedback parameter that produces the first predetermined amount electric charge at described touch-control sensing cell surface.

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

The 5th determining unit, for determining the corresponding unit charge amount of unit contact area;

The 6th determining unit, for determining described the first predetermined amount based on described the first contact area and described unit charge amount;

The 7th determining unit, for determining described the first touch parameter based on described the first predetermined amount.

14. electronic equipments as claimed in claim 13, is characterized in that, described determination module, specifically comprises:

The 8th determining unit, for determining the first contact area interval range at described the first contact area place;

The 9th determining unit, for the corresponding relation based on contact area interval range and touch-control feedback parameter, determines corresponding the first touch parameter of described the first contact area interval range.

15. electronic equipments as claimed in claim 9, is characterized in that, described the first touch parameter, is specially: the feedback parameter that adopts the first predetermined manner to shake; Or the feedback parameter that adopts the second predetermined amount salient point to feed back; Or the feedback parameter that adopts the 3rd default sound to feed back; Or the feedback parameter that adopts the 4th default light efficiency to feed back.

16. electronic equipments as claimed in claim 9, is characterized in that, described respond module, specifically comprises:

The 8th determining unit, for determining described the first corresponding first area of touch control operation;

Response unit, for responding described the first touch control operation, produces described the first touch-control feedback in described first area.