CN107463246A - A kind of information processing method and electronic equipment - Google Patents
A kind of information processing method and electronic equipment Download PDFInfo
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- CN107463246A CN107463246A CN201610391237.6A CN201610391237A CN107463246A CN 107463246 A CN107463246 A CN 107463246A CN 201610391237 A CN201610391237 A CN 201610391237A CN 107463246 A CN107463246 A CN 107463246A
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- touch
- input area
- control
- area domain
- control operation
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/016—Input arrangements with force or tactile feedback as computer generated output to the user
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1613—Constructional details or arrangements for portable computers
- G06F1/1615—Constructional details or arrangements for portable computers with several enclosures having relative motions, each enclosure supporting at least one I/O or computing function
- G06F1/1616—Constructional details or arrangements for portable computers with several enclosures having relative motions, each enclosure supporting at least one I/O or computing function with folding flat displays, e.g. laptop computers or notebooks having a clamshell configuration, with body parts pivoting to an open position around an axis parallel to the plane they define in closed position
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1613—Constructional details or arrangements for portable computers
- G06F1/1633—Constructional details or arrangements of portable computers not specific to the type of enclosures covered by groups G06F1/1615 - G06F1/1626
- G06F1/1684—Constructional details or arrangements related to integrated I/O peripherals not covered by groups G06F1/1635 - G06F1/1675
- G06F1/169—Constructional details or arrangements related to integrated I/O peripherals not covered by groups G06F1/1635 - G06F1/1675 the I/O peripheral being an integrated pointing device, e.g. trackball in the palm rest area, mini-joystick integrated between keyboard keys, touch pads or touch stripes
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/01—Input arrangements or combined input and output arrangements for interaction between user and computer
- G06F3/048—Interaction techniques based on graphical user interfaces [GUI]
- G06F3/0487—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser
- G06F3/0488—Interaction techniques based on graphical user interfaces [GUI] using specific features provided by the input device, e.g. functions controlled by the rotation of a mouse with dual sensing arrangements, or of the nature of the input device, e.g. tap gestures based on pressure sensed by a digitiser using a touch-screen or digitiser, e.g. input of commands through traced gestures
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2203/00—Indexing scheme relating to G06F3/00 - G06F3/048
- G06F2203/01—Indexing scheme relating to G06F3/01
- G06F2203/014—Force feedback applied to GUI
Abstract
The embodiment of the present invention provides a kind of information processing method and electronic equipment, and the touch control operation for solving electronic equipment by feedback capability is weaker and can not be carried out to user carries out the technical problem of effective Feedback.Methods described includes:Detect the touch control operation for the touch-control part for acting on electronic equipment;Wherein, the touch-control part includes at least one touch input area domain, and each touch input area domain at least one touch input area domain is correspondingly arranged on key markings;Determine that the touch control operation acts on the position of touch of the touch-control part;According to the position of touch, the first touch input area domain that the touch control operation is acted at least one touch input area domain is determined;It is determined that the first input feedback effect corresponding with the first touch input area domain;The touch control operation is fed back with the first input feedback effect;Wherein, the first input feedback effect can be perceived by the user.
Description
Technical field
The present invention relates to field of computer technology, more particularly to a kind of information processing method and electronic equipment.
Background technology
With the continuous development of scientific technology, electronic technology has also obtained development at full speed, and the species of electronic product is also got over
Come it is more, while the Functional Requirement to electronic equipment is more and more, requirement of the user to the portability of electronic equipment
More and more higher.
For example, in order to reduce the integral thickness of electronic equipment in order to which user carries, C faces of some notebook computers at present
(i.e. the keyboard face of traditional notebook computer) has been designed to a plane, can so save as far as possible due to shared by keyboard projection
According to space, reach reduce complete machine thickness purpose.Also, inputted in order to facilitate user, touch is provided with C faces
Formula keyboard, user directly can carry out touch control operation to realize the input of information to the button in tactile keyboard.
However, because tactile keyboard is pure-surface, good sense of touch can not be provided the user as mechanical keyboard,
The more difficult touch control operation carried out to oneself of user perceives, and the substitution sense that user uses is weaker, and usage experience is bad, for
Such as this kind of sense of touch to button operation of game player requires to become apparent for higher user, that is to say, that prior art
The touch control operation that middle electronic equipment can not be carried out by feedback capability is weaker to user carries out effective Feedback, causes user's
Usage experience is bad.
The content of the invention
The embodiment of the present invention provides a kind of information processing method and electronic equipment, for solving electronic equipment due to feeding back energy
The touch control operation that power is weaker and can not be carried out to user carries out the technical problem of effective Feedback.
First aspect, there is provided a kind of information processing method, including:
Detect the touch control operation for the touch-control part for acting on electronic equipment;Wherein, the touch-control part includes at least one
Individual touch input area domain, each touch input area domain at least one touch input area domain are correspondingly arranged on button mark
Note;
Determine that the touch control operation acts on the position of touch of the touch-control part;
According to the position of touch, the touch control operation is acted at least one touch input area domain is determined
One touch input area domain;
It is determined that the first input feedback effect corresponding with the first touch input area domain;
The touch control operation is fed back with the first input feedback effect;Wherein, the first input feedback effect
Fruit can be perceived by the user.
Optionally, first touch control operation is fed back with the first input feedback effect, including:
The touch control operation is fed back in a manner of one or more in vibrations, sound, display.
Optionally, the electronic equipment is at least provided with the first vibrations device at first position, set in the second place
The second vibrations device is equipped with, by least one vibrations in the described first vibrations device, the second vibrations device to institute
State touch control operation and carry out vibrational feedback.
Optionally, it is determined that the first input feedback effect corresponding with the first touch input area domain, including:
Determine first distance in the first touch input area domain and the first position, and with the second place
Second distance;
According to first distance and the second distance, the first vibrations device, the second vibrations device are determined
In at least one vibrations device shaken with to the touch control operation carry out vibrational feedback.
Optionally, according to first distance and the second distance, the first vibrations device, second shake are determined
At least one vibrations device in dynamic device is shaken to carry out vibrational feedback to the touch control operation, including:
Determine in the first vibrations device, the second vibrations device with the distance in the first touch input area domain compared with
Near vibrations device;
Vibrations device is shaken to carry out vibrational feedback to the touch control operation determined by control.
Optionally, it is determined that the first input feedback effect corresponding with the first touch input area domain, including:
According to the area in the first touch input area domain, it is determined that the shockproofness of vibrations device and/or vibrations duration.
Optionally, it is determined that the first input feedback effect corresponding with the first touch input area domain, including:
Determine the touch control operation touch-control at least two touch input area domains of the touch-control part;
Determine the touch-control sequencing at least two touch input area domains described in the touch control operation touch-control;
According to the touch-control sequencing, control vibrations device corresponding with least two touch input areas domain difference
Shaken successively according to very first time interval;Wherein, electromagnetic shaker corresponding with least two touch input areas domain difference
Part refers to the vibrations device closest with corresponding touch input area domain.
Optionally, it is determined that the first input feedback effect corresponding with the first touch input area domain, including:
It is gesture input region to determine the first touch input area domain;
Determine the touch-control direction that the touch control operation is formed from beginning touch-control to end touch-control;
Vibrations device of the control on the touch-control direction is shaken successively according to the second time interval.
Optionally, it is determined that the first input feedback effect corresponding with the first touch input area domain, including:
By search touch input area domain and export feedback effects between mapping table, it is determined that with first touch-control
The first input feedback effect corresponding to input area;Wherein, the mapping table is pre-set.
Second aspect, there is provided the first electronic equipment, including:
Touch-control part, including at least one touch input area domain, each at least one touch input area domain touch
Control input area is correspondingly arranged on key markings;
Processor, it is connected with the touch-control part, the touch control operation of the touch-control part is acted on for detecting;It is determined that
The touch control operation acts on the position of touch of the touch-control part;According to the position of touch, determine that the touch control operation is made
For the first touch input area domain at least one touch input area domain;It is determined that with the first touch input area domain pair
The the first input feedback effect answered;The touch control operation is fed back with the first input feedback effect;Wherein, described
One input feedback effect can be perceived by the user.
Optionally, the electronic equipment also includes one kind or several in shaking assembly, audio output component and display module
Kind;Wherein, shaken by the shaking assembly and vibrational feedback is carried out to the touch control operation, pass through the audio output group
Part carries out audio output and carries out sound feedback to the touch control operation, and the touch-control is grasped by the display module display information
Carry out display feedback.
Optionally, the electronic equipment is at least provided with the first vibrations device at first position, set in the second place
The second vibrations device is equipped with, by least one vibrations in the described first vibrations device, the second vibrations device to institute
State touch control operation and carry out vibrational feedback.
Optionally, the processor is used for:
Determine first distance in the first touch input area domain and the first position, and with the second place
Second distance;
According to first distance and the second distance, the first vibrations device, the second vibrations device are determined
In at least one vibrations device shaken with to the touch control operation carry out vibrational feedback.
Optionally, the processor is used for:
Determine in the first vibrations device, the second vibrations device with the distance in the first touch input area domain compared with
Near vibrations device;
Vibrations device is shaken to carry out vibrational feedback to the touch control operation determined by control.
Optionally, the processor is used for:
According to the area in the first touch input area domain, it is determined that the shockproofness of vibrations device and/or vibrations duration.
Optionally, the processor is used for:
Determine the touch control operation touch-control at least two touch input area domains of the touch-control part;
Determine the touch-control sequencing at least two touch input area domains described in the touch control operation touch-control;
According to the touch-control sequencing, control vibrations device corresponding with least two touch input areas domain difference
Shaken successively according to very first time interval;Wherein, electromagnetic shaker corresponding with least two touch input areas domain difference
Part refers to the vibrations device closest with corresponding touch input area domain.
Optionally, the processor is used for:
It is gesture input region to determine the first touch input area domain;
Determine the touch-control direction that the touch control operation is formed from beginning touch-control to end touch-control;
Vibrations device of the control on the touch-control direction is shaken successively according to the second time interval.
Optionally, the electronic equipment also includes storage device, for storing touch input area domain and output feedback effects
Between mapping table, the mapping table pre-sets;
The processor is used for:
By searching the mapping table, first input feedback corresponding to the first touch input area domain is determined
Effect.
The third aspect, there is provided second of electronic equipment, including:
Detection module, the touch control operation of the touch-control part of the electronic equipment is acted on for detecting;Wherein, it is described to touch
Control part includes at least one touch input area domain, each touch input area domain pair at least one touch input area domain
Key markings should be provided with;
First determining module, for determining that the touch control operation acts on the position of touch of the touch-control part;
Second determining module, for according to the position of touch, it is described at least one to determine that the touch control operation acts on
The first touch input area domain in touch input area domain;
3rd determining module, for determining the first input feedback effect corresponding with the first touch input area domain;
Feedback module, for being fed back with the first input feedback effect to the touch control operation;Wherein, described
One input feedback effect can be perceived by the user second aspect, there is provided the first electronic equipment, including:
, can be true after the touch control operation for the touch-control part for acting on electronic equipment is detected in the embodiment of the present invention
Determine the position of touch that touch control operation acts on touch-control part, and can determine that touch control operation acts at least one according to position of touch
Which of individual touch input area domain or which region, such as determine to act on the first touch input area domain therein, enter
And input feedback effect corresponding with the first touch input area domain can be determined, for example, the first input feedback effect, further
Touch control operation can be fed back with the first input feedback effect with control electronics, and the first input feedback effect be can
It is perceived by the user, that is to say, that the input feedback effect that electronic equipment be able to can be perceived by the user is carried out to touch control operation
Feedback, reaches the purpose of the feedback capability of enhancing electronic equipment, while can increase the interest of operation, strengthens electronic equipment
Operability so that user can perceive its touch control operation carried out, and the use that can so strengthen user substitutes into sense.
Also, acted on touch input area domain is determined by being then based on position of touch, and then determines to input with the touch-control
Input feedback effect corresponding to region, be the equal of that can be directed to different touch input area domains to provide different input feedback effects
Fruit, so as to carry out the feedback of different modes to different touch input area domains so that user is to each touch control operation institute pin
To touch input area domain directly from perceptually making a distinction, can further enhance user use substitute into sense, and then
Lift the usage experience of user.
Brief description of the drawings
In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
There is the required accompanying drawing used in technology description to be briefly described, it should be apparent that, drawings in the following description are only this
Inventive embodiments, for those of ordinary skill in the art, on the premise of not paying creative work, can also be according to carrying
The accompanying drawing of confession obtains other accompanying drawings.
Fig. 1 is the schematic diagram that electronic equipment includes the first noumenon and the second body in the embodiment of the present invention;
Fig. 2 is the flow chart of information processing method in the embodiment of the present invention;
Fig. 3 A are touch control operation while the schematic diagram in two adjacent touch input area domains of touch-control in the embodiment of the present invention;
It is that touch control operation is the schematic diagram that combination button operates in the embodiment of the present invention that Fig. 3 B, which are,;
Fig. 4 is the schematic diagram that electronic equipment includes vibrations device in the embodiment of the present invention;
Fig. 5 is the structural representation of electronic equipment in the embodiment of the present invention;
Fig. 6 is the structured flowchart of electronic equipment in the embodiment of the present invention.
Embodiment
For the object, technical solutions and advantages of the present invention are more clearly understood, below in conjunction with the embodiment of the present invention
Accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only
It is part of the embodiment of the present invention, rather than whole embodiments.Based on the embodiment in the present invention, ordinary skill people
The every other embodiment that member is obtained under the premise of creative work is not made, belongs to the scope of protection of the invention.
In the case of not conflicting, the feature in embodiment and embodiment in the present invention can be mutually combined.Although also, flowing
Logical order is shown in journey figure, but in some cases, can be with different from shown or described by order execution herein
The step of.
In addition, the terms "and/or", only a kind of incidence relation for describing affiliated partner, represents there may be
Three kinds of relations, for example, A and/or B, can be represented:Individualism A, while A and B be present, these three situations of individualism B.Separately
Outside, character "/" herein, in the case where not illustrating, it is a kind of relation of "or" to typically represent forward-backward correlation object.
In order to be better understood from above-mentioned technical proposal, below in conjunction with Figure of description and specific embodiment to upper
Technical scheme is stated to be described in detail.
The embodiment of the present invention provides a kind of information processing method, and the electronics that this method can apply to include touch-control part is set
It is standby, wherein, touch-control part refers to the part that can detect the touch control operation of user's progress, such as tactile keyboard or touch-control
Plate, or, the touch-control part can also be provided simultaneously with display capabilities, and now touch-control part is, for example, touching display screen, etc..And
And touch-control part can include at least one touch input area domain, each touch-control input at least one touch input area domain
Region is correspondingly arranged on key markings, that is to say, that touch-control part can be divided into multiple touch input area domains, and each
Key markings can be provided with touch input area domain, by carrying out touch control operation to touch input area domain, such as can be obtained
Key symbol corresponding with key markings.
In specific implementation process, the electronic equipment can include mobile phone, tablet personal computer, notebook computer etc. equipment,
As long as the electronic equipment includes above-mentioned touch-control part, the present invention is specially which kind of equipment does not limit to the electronic equipment
System.
Such as the electronic equipment can have the first noumenon and the second body, the first noumenon and the second body pass through connector
Connection, there is display unit in the first face of the first noumenon, there is touch-control input block in the first face of the second body, and can be with
The touch-control input block is interpreted as foregoing touch-control part.So that electronic equipment is notebook computer as an example, Fig. 1 is referred to, can
With by notebook computer renovate the 101, main body 102 for housing the parts such as processor and battery, for connect renovate 101 and
The connection component 103 of main body 102 is not understood as the first noumenon of aforementioned electronic devices, the second body and connector respectively, meanwhile,
The B faces (i.e. rectangle frame 104) of notebook computer and C faces (i.e. rectangle frame 105) can be not understood as to the of electronic equipment respectively
First face of one body and the first face of the second body, and can by the display screen (i.e. rectangle frame 106) of notebook computer and
The aobvious of electronic equipment is not understood as respectively to enter the touch-control part (i.e. rectangle frame 107) of row information input for receiving touch-control input
Show unit and input block, in specific implementation process, display unit can also be provided simultaneously with the ability of touch-control input, that is, show
Unit is one piece of touching display screen.
For example, the touch-control input block in C faces is tactile keyboard, you can to regard the tactile keyboard as the present invention
Touch-control part in embodiment, each key of tactile keyboard can be accorded with corresponding input area and be not understood as touch-control part
Including multiple input areas, as shown in fig. 1, illustrate 10 input areas, i.e., be respectively with key symbol R, T, U, P, A, H,
Enter, Ctrl, V, input area corresponding to space, are set between input area and input area by way of rectangle frame
Interval, the key symbol mark in rectangle frame and rectangle frame can be not understood as key markings in the embodiment of the present invention.
In specific implementation process, greater number of key markings can be set on touch-control part, but to put it more simply, in Fig. 1 only
It is to be schematically illustrated with above-mentioned 10 key markings.
In specific implementation process, the tactile keyboard shown in Fig. 1 can be made as a monolithic glass, can so save
The physical space occupied by the physical keyboard of convex type is gone so as to reduce the complete machine thickness of electronic equipment, but just due to being tactile
Touch formula keyboard, user is difficult to perceive the touch control operation that oneself is carried out when being inputted, especially for commonly using
For the user of mechanicalness keyboard, the substitution sense used is weaker.In addition, key markings for example can be with silk-screen, radium-shine or viscous
The surface for being arranged at the glass of patch, meanwhile, it can be that tactile keyboard sets backlight, can be illuminated when backlight is opened
Key markings, when there is provided during all key markings of conventional keyboard, being similar to penetrate one in touch-control part upslide
Dummy keyboard, according to the instruction of key markings, user can be visually seen and then be accurately entered, when closing backlight
When, user then possibly can not see key markings again, tactile keyboard just similar one piece of display being closed now
Screen.
In addition, can not only be used using touch-control part as tactile keyboard, while touch-control part is also used as electronics
Writing pencil carries out the touch screen of touch-control input, such as can be inputted by contact touch-control or by time writer with electromagnetic induction
Mode is inputted, and can set a switching push button, for by being operated to switching push button, to realize in tactile keyboard
Arbitrarily switched between touch screen.
In specific implementation process, touch-control part can be Zone Full or the subregion in the first face of the second body,
Continue by taking Fig. 1 as an example, the area of rectangle frame 107 and rectangle frame 105 can as and be completely superposed, or the face of rectangle frame 107
Product can be a part for the area of rectangle frame 105, and be in Fig. 1 using the subregion in the first face of the second body as touch
Part is controlled, is that illustrated exemplary explanation is carried out with the area that the area of rectangle frame 107 is rectangle frame 105.
Refer to Fig. 2, the flow of the information processing method in the embodiment of the present invention is described as follows.
Step 201:Detect the touch control operation for the touch-control part for acting on electronic equipment.
Step 202:Determine that touch control operation acts on the position of touch of touch-control part.
When user is carrying out touch control operation on touch-control part, such as user has carried out touch control operation by finger, electricity
Sub- equipment can sense to the touch control operation, and then can determine to detect the touch control operation, also, can obtain simultaneously
The position of touch that the touch control operation acts on touch-control part is obtained, specifically, can be by the operating body (hand of example user as the aforementioned
Refer to) it is defined as position of touch with the contact position of touch-control part.
Such as two-dimensional coordinate system can be established on touch-control part, then when operating body and touch-control component contact, then may be used
To obtain the coordinate of position of touch, and because the contact position of operating body and touch-control part is typically in planar, so touch-control position
The coordinate put can substantially be understood to a coordinate range.
Step 203:According to position of touch, determine that touch control operation is acted at least one touch input area domain first touches
Control input area.
Because touch-control part includes multiple touch input area domains, then the touch control operation that user is carried out is which is directed to actually
It is individual or which touch input area domainAnd because the touch area of touch-control part is limited, user is carrying out a touch-control
During operation may touch-control is to two or more adjacent touch input area domains simultaneously, can be according in specific implementation process
The coordinate range of position of touch and the intersecting area of input area determine, specifically, it may be considered that following several situations, and
Using corresponding determination mode.
Situation 1, then can be direct when the coordinate range of position of touch is within some touch input area domain
The touch input area domain is defined as the first touch input area domain.
Situation 2, when the area that the coordinate range of position of touch intersects with some touch input area domain is more than the coordinate model
The predetermined ratio enclosed, the 80% of coordinate range is greater than, it is defeated the touch input area domain directly can be defined as the first touch-control
Enter region.
Situation 3, coordinates regional intersect with two adjacent touch input area domains simultaneously.Fig. 3 A are referred to, wherein being covered in
Elliptical region on key markings R and key markings T represents the coordinates regional of position of touch, it is seen that now coordinates regional is with pressing
Key label R touch input area domain (such as be referred to as touch input area domain R) and key markings T touch input area domain (such as claim
Make touch input area domain T) it is intersecting, then now can be by following touch input areas for determining in a manner of any one to be applied
Domain.
For example, the larger touch input area domain of intersecting area can be defined as to the touch input area domain being applied, i.e., really
It is set to the first touch input area domain.In figure 3 a, it is seen that the larger touch input area domain of intersecting area is touch input area domain T,
So touch input area domain T directly can be defined as the first touch input area domain.
Such as the touch input area domain for first detecting touch control operation can be defined as the first touch input area domain.
Because user be usually it is autotelic operated, the general region for first detecting touch control operation, which is that user is actual, wishes
The possibility of the input area of touch-control is larger, continues by taking Fig. 3 A as an example, it is assumed that touch input area domain R is prior to touch input area domain T
Touch control operation is detected, then touch input area domain R can be defined as to the first touch input area domain.
For another example touch input area domain R and touch input area domain T can be defined as the first touch input area domain simultaneously,
I.e. now the first touch input area domain includes two touch input area domains.It is defined as by two adjacent touch input area domains
, further can be according to key information corresponding to the sequencing input of reception touch control operation after first touch input area domain.
For example, when touch input area domain R and touch input area domain T being defined as into the first touch input area domain at the same time, it is assumed that touch-control is defeated
Enter region R and receive touch control operation prior to touch input area domain T, then can first input R, then input T.
Situation 4, user may carry out the input of key combination by a touch control operation, refer to Fig. 3 B, such as make
During with the shortcut function of stickup, user can be in a short time by two fingers almost touch-control Ctrl and V simultaneously, due to Ctrl
With V relatively far apart, the possibility of user's progress maloperation is relatively low, and electronic equipment can determine Ctrl and V Macintosh
Correspond to the shortcut function pasted, then now by touch input area domain corresponding to key markings Ctrl and can then press simultaneously
Touch-control input marking corresponding to key label V is defined as the first input area, can so lift the input efficiency of touch-control part
And operability.
Several situations are enumerated above to illustrate the mode for determining the first touch input area domain, in specific implementation process
In, other modes can also be included, just differing herein one has been illustrated.
Step 204:It is determined that the first input feedback effect corresponding with the first touch input area domain.
Step 205:Touch control operation is fed back with the first input feedback effect.Wherein, the first input feedback effect energy
Enough it is perceived by the user.
One or more modes in first input feedback effect mode such as can be vibrations, sound, display are carried out
Feedback.Optionally, electronic equipment can include the one or more in shaking assembly, audio output component and display module, use
With to should be used as the hardware supported in vibrational feedback, sound feedback and display feedback, i.e. can be shaken by shaking assembly
Vibrational feedback is carried out to touch control operation, it is anti-to touch control operation progress sound that audio output can be carried out by audio output component
Feedback, and display feedback can be carried out to touch control operation by display module display information.
No matter the first input feedback effect is reached by which kind of feedback system, and the first input feedback effect can be by
User is perceived, such as when vibrational feedback, user can carry out tactilely-perceptible, and when sound feedback, user can be listened
Feel and perceive, when showing feedback, user can pass through visually-perceptible.When by the first input feedback effect to touch control operation carry out
After feedback, the feedback capability of electronic equipment can be strengthened, and user can be felt to the touch control operation of progress by one or more
Know that mode perceives, the interest of operation can be increased, the use for lifting user substitutes into sense, strengthens the usage experience of user.
The first input feedback effect is determined for the first touch input area domain, and touch-control is grasped with the first input feedback effect
Fed back, that is to say, that electronic equipment can provide different input feedback effects for different touch input area domains, enter
And different touch input areas is fed back so that user perceives in a different manner with different input feedback effects.
For example, for the first touch input area domain, it can be fed back with vibrational feedback, for the second touch input area domain, Ke Yitong
When fed back with shaking with sound, or, for the first touch input area domain, can be fed back with the first shockproofness,
For the second touch input area domain, can carry out feeding back with the second shockproofness, etc..
In specific implementation process, corresponding with the first touch input area domain can be determined using following two modes
One input feedback effect.
The first, it is determined that after the first touch input area domain, can touch according to the operation information of touch control operation and first
One or both of the area information for controlling input area determines the first input feedback effect in real time, that is to say, that for the
It is that electronic equipment determines in real time for one input feedback effect, such as determination is calculated by predetermined algorithm in real time, it is such
Determination mode real-time is stronger, and change is also more, can dynamically provide the user different feedback effects.
Second, by search touch input area domain and export feedback effects between mapping table, and then determine with
First input feedback effect corresponding to first touch input area domain.Wherein, and mapping table is pre-set, such as can be with
It is configured in advance using first way, or the corresponding relation is set by equipment vendors before electronic equipment dispatches from the factory
Table.Illustrated with key markings A, key markings Enter and space bar, for example, with key markings A, key markings Enter and
Input feedback effect set by space bar is as shown in table 1.
Table 1
Such as the mapping table shown in table 1 is for the ease of user is understood and is carried out in the form of word and form
For example, in specific implementation process, above-mentioned mapping table can be stored in the form of code in electronic equipment
In depositing, such as a configuration file, and the configuration file can be stored with Hash table, number can be so reduced as far as possible
According to amount of storage, and inquiry velocity can also be improved.When needing to feed back touch input area domain, operation pair can be passed through
The code answered is fed back with controlling feedback component to be operated corresponding to progress.
Because the second way is can first to use the determination mapping table of first way, for the ease of this area skill
Art personnel are understood scheme, and first way is described in detail below.For various feedback mode, vibrations are anti-
Feedback can enable a user to directly be perceived from tactile, can save sound or display feedback caused may be disturbed,
So citing introduction is carried out with vibration mode below.
Electronic equipment is at least provided with the first vibrations device at first position, the second vibrations is provided with the second place
One vibrations device can be set in device, i.e. electronic equipment a position, or can also be set in multiple position correspondences
Multiple vibrations devices, all vibrations devices included by electronic equipment can be regarded as foregoing shaking assembly, by one or
The vibrations of multiple vibrations devices carry out vibrational feedback to touch control operation.First vibrations device and the second shake are only included with electronic equipment
Dynamic device, touch control operation is shaken by least one vibrations in the vibrations of control first device, the second vibrations device
Feedback.
Wherein, it can be vibrating motor to shake device, can be with for the ease of carrying out polytype feedback to touch control operation
Using the more vibrating motor of the rank of shockproofness, in addition to being easy to integrally disposed in electronic equipment, can use small
Type, the vibrating motor of low-power consumption.
Continue so that electronic equipment is notebook computer as an example, refer to Fig. 4,4 electromagnetic shakers are provided with notebook computer
Part, oval 401-404 represent this 4 vibrations devices, and the first vibrations device and the second vibrations device can be therein any
Two vibrations devices.In practice, mode embedding within device is shaken to be arranged in notebook computer, intuitively, Yong Huwu
Method sees vibrations device from outer surface, and is understood for the ease of reader in Fig. 4, so being protruded sign.In addition, shake
Dynamic device can be set close to the side of the second body, or can be arranged on the corner of the second body, so can be as far as possible sharp
With the space of side or corner house vibrations device.
It is assumed that the first touch input area domain is touch input area domain corresponding to key symbol mark Ctrl, and it is oval
401 and ellipse 402 represent the first vibrations device and the second vibrations device respectively, can first determine the first touch input area domain and the
First distance of one vibrations device, and determine the first touch input area domain and the second distance of the second vibrations device, Jin Erzai
According to the first distance and second distance, determine which of the first vibrations device and the second vibrations device vibrations device are shaken
To be fed back to touch control operation.
In specific implementation process, can control the first vibrations device and second shake device in the first touch input area
The vibrations device closer to the distance in domain is shaken, such as the first distance is 4cm, second distance 34cm, it may be determined that first
Vibrations device is closer to the distance with the first touch input area domain, now can then control the first vibrations device to be shaken, due to
First vibrations device is closer to the distance with the first touch input area domain, then carrying out vibrational feedback by nearer vibrations device can
Enable a user to more easily perceive touch control operation, strengthen the feedback effects of electronic equipment.
In addition, if determine that the equidistant of device is shaken in the first touch input area domain with the first vibrations device and second
It words, then two any one shaken in devices of control can only be shaken, or two vibrations devices can be controlled simultaneously
Shaken to strengthen feedback effects.
Optionally, it is determined that needing the vibrations device shaken, or can also be gone back according to the area in the first touch input area domain
It can determine to shake the shockproofness of device and/or shake duration.
If the area in the first touch input area domain is smaller, such as the touch input area domain in Fig. 4 corresponding to A, now may be used
To control one of vibrations low intensive vibrations of device, and, grown when one of vibrations device vibrations can be controlled shorter,
Such as 0.2 second.
If the area in the first touch input area domain is larger, such as the heavy input area corresponding to the space bar in Fig. 4, this
When can then control the first vibrations device and second shake device carry out high intensity vibrations, and, one of them can also be controlled
Shake device and shake longer duration, such as 0.6 second.
Determine to need the resonator device shaken and the mode shaken according to the area in touch input area domain, can paste as far as possible
The practical operation of nearly user, such as the larger space bar in touch input area domain, user practises when using mechanical keyboard
Inertia can be to tap compared with great dynamicses, then now if being fed back with relatively strong and the long period vibrations, can strengthen
The substitution sense of user, feels truer.
The combination button operation carried out below to user carries out vibrational feedback explanation.
When it is determined that touch control operation touch-control is at least two touch input area domains, touch control operation touch-control can be first determined at least
The touch-control sequencing in two touch input area domains, and then inputted further according to touch-control sequencing, control with least two touch-controls
Corresponding vibrations device is shaken successively according to very first time interval respectively in region;Wherein, with least two touch input areas
Corresponding vibrations device refers to the vibrations device closest with corresponding touch input area domain respectively in domain.
Continuation is illustrated with Fig. 4, such as combination button operation is Ctrl+P, and user passes through two finger priority touch-controls
Touch input area domain corresponding to Ctrl and P, i.e. touch-control sequencing are from Ctrl to P, and can be determined nearest with Ctrl
The vibrations devices (such as first vibrations device) that ellipse 401 represents, with P it is nearest be vibrations device (examples that ellipse 404 represents
Such as the second vibrations device), then it can then control the first vibrations device and the second vibrations successively to be shaken, to be entered to user
Capable combination button carries out vibrational feedback according to the priority trend of touch-control so that level can be presented in vibrations, strengthen feedback effects.
And it is possible to according to successively being shaken between the very first time, such as interval 0.1 second so that the combination that user is carried out for oneself
The keystroke sequence of button operation can be perceived from tactile by way of interval dwell, and the use for lifting user substitutes into sense.
In addition, touch input area domain can also be gesture input region, such as the Trackpad in conventional laptop computer, or
Touching display screen in person's electronic equipment, when it is determined that the first touch input area domain is gesture input region, receiving user
During the touch control operation carried out, it may be determined that the touch-control direction that touch control operation is formed from beginning touch-control to end touch-control, and then
The resonator device on touch-control direction is controlled to be shaken successively according to the second time interval again.
For example, when detecting slip gesture from left to right, can be represented with the ellipse 401 in control figure 4 and ellipse 402
Two vibrations devices shaken successively, or can control ellipse 403 and ellipse 404 represent two vibrations devices successively
Shaken, that is to say, that vibrations device can be controlled to be shaken successively according to direction from left to right, to be carried out to user
Slip gesture from left to right carry out analogy feedback.
Some have been carried out for example, in specific implementation process to vibrational feedback effect above by two vibrations devices
In, it can also include other vibrational feedback modes, such as can be simultaneously using 4 vibrations devices, etc., herein just not one by one
It is extended and illustrates, vibrations determined by every touch information of area and touch control operation according to touch input area domain etc. is anti-
Feedback mode is included within protection scope of the present invention.
, can be true after the touch control operation for the touch-control part for acting on electronic equipment is detected in the embodiment of the present invention
Determine the position of touch that touch control operation acts on touch-control part, and can determine that touch control operation acts at least one according to position of touch
Which of individual touch input area domain or which region, such as determine to act on the first touch input area domain therein, enter
And input feedback effect corresponding with the first touch input area domain can be determined, for example, the first input feedback effect, further
Touch control operation can be fed back with the first input feedback effect with control electronics, and the first input feedback effect be can
It is perceived by the user, that is to say, that the input feedback effect that electronic equipment be able to can be perceived by the user is carried out to touch control operation
Feedback, reaches the purpose of the feedback capability of enhancing electronic equipment, while can increase the interest of operation, strengthens electronic equipment
Operability so that user can perceive its touch control operation carried out, and the use that can so strengthen user substitutes into sense.
Also, acted on touch input area domain is determined by being then based on position of touch, and then determines to input with the touch-control
Input feedback effect corresponding to region, be the equal of that can be directed to different touch input area domains to provide different input feedback effects
Fruit, so as to carry out the feedback of different modes to different touch input area domains so that user is to each touch control operation institute pin
To touch input area domain directly from perceptually making a distinction, can further enhance user use substitute into sense, and then
Lift the usage experience of user.
Fig. 5 is referred to, based on same inventive concept, the embodiment of the present invention provides the first electronic equipment, electronic equipment bag
Include:
Touch-control part 501, including at least one touch input area domain, each touch-control at least one touch input area domain
Input area is correspondingly arranged on key markings;
Processor 502, it is connected with touch-control part 501, the touch control operation of touch-control part 501 is acted on for detecting;Really
Determine the position of touch that touch control operation acts on touch-control part 501;According to position of touch, it is at least one to determine that touch control operation acts on
The first touch input area domain in touch input area domain;It is determined that the first input feedback effect corresponding with the first touch input area domain
Fruit;Touch control operation is fed back with the first input feedback effect;Wherein, the first input feedback effect can be perceived by the user.
Processor 502 can be specifically general central processing unit (CPU), or can be ASIC
(Application Specific Integrated Circuit, ASIC), or can be that one or more is used to control journey
The integrated circuit that sequence performs.
It can be electrically connected between processor 502 and touch-control part 501 by connecting line, the connecting line has signal
The effect of transmission, for obtaining the operation information of the touch control operation received by touch-control part 501, and can be to touch-control part
501 are controlled.
Further, electronic equipment can also include memory, and the quantity of memory can be one or more.Memory
Can include read-only storage (Read Only Memory, ROM), random access memory (Random Access Memory,
) or magnetic disk storage RAM.
Electronic equipment can also include display screen, and display screen can for example include light emitting diode (Light Emitting
Diode, LED) it is display screen, Organic Light Emitting Diode (Organic Light Emitting Diode, OLED) display screen, active
Matrix/organic light emitting diode (AMOLED) (Active Matrix Organic Light Emitting Diode, AMOLED) display screen,
Plane conversion (In-Plane Switching, IPS) display screen, etc..
Optionally, electronic equipment also includes the one or more in shaking assembly, audio output component and display module;Its
In, shaken by shaking assembly and vibrational feedback is carried out to touch control operation, audio output pair is carried out by audio output component
Touch control operation carries out sound feedback, and display feedback is carried out to touch control operation by display module display information.
Optionally, electronic equipment is at least provided with the first vibrations device at first position, is provided with the second place
Second vibrations device, touch control operation is shaken by least one vibrations in the first vibrations device, the second vibrations device
Dynamic feedback.
Optionally, processor 502 is used for:
Determine the first distance of the first touch input area domain and first position, and the second distance with the second place;
According to the first distance and second distance, at least one vibrations in the first vibrations device, the second vibrations device are determined
Device is shaken to carry out vibrational feedback to touch control operation.
Optionally, processor 502 is used for:
Determine the electromagnetic shaker closer to the distance with the first touch input area domain in the first vibrations device, the second vibrations device
Part;
Vibrations device is shaken to carry out vibrational feedback to touch control operation determined by control.
Optionally, processor 502 is used for:
According to the area in the first touch input area domain, it is determined that the shockproofness of vibrations device and/or vibrations duration.
Optionally, processor 502 is used for:
Determine touch control operation touch-control at least two touch input area domains of touch-control part;
Determine the touch-control sequencing in the touch input area domain of touch control operation touch-control at least two;
According to touch-control sequencing, control vibrations device corresponding with least two touch input area domains difference is according to first
Time interval is shaken successively;Wherein, at least two touch input area domains respectively it is corresponding vibrations device refer to it is corresponding
The closest vibrations device in touch input area domain.
Optionally, processor 502 is used for:
It is gesture input region to determine the first touch input area domain;
Determine the touch-control direction that touch control operation is formed from beginning touch-control to end touch-control;
Vibrations device of the control on touch-control direction is shaken successively according to the second time interval.
Optionally, the memory of electronic equipment, it is corresponding between touch input area domain and output feedback effects for storing
Relation table, mapping table are pre-set;
Processor 502 is used for:
By searching mapping table, the first input feedback effect corresponding to the first touch input area domain is determined.
Because the electronic equipment in the embodiment of the present invention is similar to the principle of the information processing method solution problem in Fig. 2,
Therefore the implementation of electronic equipment may refer to the implementation of information processing method in Fig. 2 in the embodiment of the present invention, will not be repeated here.
, can be true after the touch control operation for the touch-control part for acting on electronic equipment is detected in the embodiment of the present invention
Determine the position of touch that touch control operation acts on touch-control part, and can determine that touch control operation acts at least one according to position of touch
Which of individual touch input area domain or which region, such as determine to act on the first touch input area domain therein, enter
And input feedback effect corresponding with the first touch input area domain can be determined, for example, the first input feedback effect, further
Touch control operation can be fed back with the first input feedback effect with control electronics, and the first input feedback effect be can
It is perceived by the user, that is to say, that the input feedback effect that electronic equipment be able to can be perceived by the user is carried out to touch control operation
Feedback, reaches the purpose of the feedback capability of enhancing electronic equipment, while can increase the interest of operation, strengthens electronic equipment
Operability so that user can perceive its touch control operation carried out, and the use that can so strengthen user substitutes into sense.
Also, acted on touch input area domain is determined by being then based on position of touch, and then determines to input with the touch-control
Input feedback effect corresponding to region, be the equal of that can be directed to different touch input area domains to provide different input feedback effects
Fruit, so as to carry out the feedback of different modes to different touch input area domains so that user is to each touch control operation institute pin
To touch input area domain directly from perceptually making a distinction, can further enhance user use substitute into sense, and then
Lift the usage experience of user.
Fig. 6 is referred to, based on same inventive concept, the embodiment of the present invention also provides second of electronic equipment, and the electronics is set
It is standby to include detection module 601, the first determining module 602, the second determining module 603, the 3rd determining module 604 and feedback module
605.And detection module 601 in the embodiment of the present invention, the first determining module 602, the second determining module the 603, the 3rd determine
Module 604 and feedback module 605 can realize correlation function by hardware processor.Wherein,
Detection module 601, the touch control operation of the touch-control part of electronic equipment is acted on for detecting;Wherein, touch control part
Part includes at least one touch input area domain, and each touch input area domain at least one touch input area domain is correspondingly arranged on
Key markings;
First determining module 602, for determining that touch control operation acts on the position of touch of touch-control part;
Second determining module 603, for according to position of touch, determining that touch control operation acts at least one touch input area
The first touch input area domain in domain;
3rd determining module 604, for determining the first input feedback effect corresponding with the first touch input area domain;
Feedback module 605, for being fed back with the first input feedback effect to touch control operation;Wherein, the first input is anti-
Feedback effect can be perceived by the user.
Optionally, feedback module 605 is used for:
Touch control operation is fed back in a manner of one or more in vibrations, sound, display.
Optionally, electronic equipment is at least provided with the first vibrations device at first position, is provided with the second place
Second vibrations device, touch control operation is shaken by least one vibrations in the first vibrations device, the second vibrations device
Dynamic feedback.
Optionally, the 3rd determining module 604 is used for:
Determine the first distance of the first touch input area domain and first position, and the second distance with the second place;
According to the first distance and second distance, at least one vibrations in the first vibrations device, the second vibrations device are determined
Device is shaken to carry out vibrational feedback to touch control operation.
Optionally, the 3rd determining module 604 is used for:
Determine the electromagnetic shaker closer to the distance with the first touch input area domain in the first vibrations device, the second vibrations device
Part;
Vibrations device is shaken to carry out vibrational feedback to touch control operation determined by control.
Optionally, the 3rd determining module 604 is used for:
According to the area in the first touch input area domain, it is determined that the shockproofness of vibrations device and/or vibrations duration.
Optionally, the 3rd determining module 604 is used for:
Determine touch control operation touch-control at least two touch input area domains of touch-control part;
Determine the touch-control sequencing in the touch input area domain of touch control operation touch-control at least two;
According to touch-control sequencing, control vibrations device corresponding with least two touch input area domains difference is according to first
Time interval is shaken successively;Wherein, at least two touch input area domains respectively it is corresponding vibrations device refer to it is corresponding
The closest vibrations device in touch input area domain.
Optionally, the 3rd determining module 604 is used for:
It is gesture input region to determine the first touch input area domain;
Determine the touch-control direction that touch control operation is formed from beginning touch-control to end touch-control;
Vibrations device of the control on touch-control direction is shaken successively according to the second time interval.
Optionally, the 3rd determining module 604 is used for:
By searching touch input area domain and exporting the mapping table between feedback effects, it is determined that being inputted with the first touch-control
First input feedback effect corresponding to region;Wherein, mapping table is pre-set.
Because the electronic equipment in the embodiment of the present invention and the method for the information processing in Fig. 2 solve the principle phase of problem
Seemingly, the implementation of electronic equipment may refer to the implementation of information processing method in Fig. 2 therefore in the embodiment of the present invention, no longer superfluous herein
State.
It is apparent to those skilled in the art that for convenience and simplicity of description, only with above-mentioned each function
The division progress of module, can be as needed and by above-mentioned function distribution by different function lists for example, in practical application
Member is completed, i.e., the internal structure of device is divided into different functional units, to complete all or part of work(described above
Energy.The specific work process of the system, apparatus, and unit of foregoing description, it may be referred to corresponding in preceding method embodiment
Journey, it will not be repeated here.
In several embodiments provided by the present invention, it should be understood that disclosed system, apparatus and method can be with
Realize by another way.For example, device embodiment described above is only schematical, for example, the module or
The division of unit, only a kind of division of logic function, can there are other dividing mode, such as multiple units when actually realizing
Or component can combine or be desirably integrated into another system, or some features can be ignored, or not perform.It is another, institute
Display or the mutual coupling discussed or direct-coupling or communication connection can be by some interfaces, device or unit
INDIRECT COUPLING or communication connection, can be electrical, mechanical or other forms.
The unit illustrated as separating component can be or may not be physically separate, show as unit
The part shown can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple
On NE.Some or all of unit therein can be selected to realize the mesh of this embodiment scheme according to the actual needs
's.
In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, can also
That unit is individually physically present, can also two or more units it is integrated in a unit.Above-mentioned integrated list
Member can both be realized in the form of hardware, can also be realized in the form of SFU software functional unit.
If the integrated unit is realized in the form of SFU software functional unit and is used as independent production marketing or use
When, it can be stored in a computer read/write memory medium.Based on such understanding, technical scheme is substantially
The part to be contributed in other words to prior art or all or part of the technical scheme can be in the form of software products
Embody, the computer software product is stored in a storage medium, including some instructions are causing a computer
It is each that equipment (can be personal computer, server, or network equipment etc.) or processor (processor) perform the present invention
The all or part of step of embodiment methods described.And foregoing storage medium includes:USB flash disk, mobile hard disk, ROM (Read-
Only Memory, read-only storage), RAM (Random Access Memory, random access memory), magnetic disc or CD
Etc. it is various can be with the medium of store program codes.
Specifically, computer program instructions corresponding to a kind of information processing method in the embodiment of the present invention can be deposited
Storage is in the storage mediums such as CD, hard disk, USB flash disk, when computer journey corresponding with a kind of information processing method in storage medium
When sequence instruction is read or is performed by an electronic equipment, comprise the following steps:
Detect the touch control operation for the touch-control part for acting on electronic equipment;Wherein, touch-control part includes at least one touch
Input area is controlled, each touch input area domain at least one touch input area domain is correspondingly arranged on key markings;
Determine that touch control operation acts on the position of touch of touch-control part;
According to position of touch, the first touch input area that touch control operation is acted at least one touch input area domain is determined
Domain;
It is determined that the first input feedback effect corresponding with the first touch input area domain;
Touch control operation is fed back with the first input feedback effect;Wherein, the first input feedback effect can be by user
Perceive.
Optionally, stored in storage medium and step:The first touch control operation is carried out with the first input feedback effect anti-
Feedback, corresponding computer instruction among the process being performed, including:
Touch control operation is fed back in a manner of one or more in vibrations, sound, display.
Optionally, electronic equipment is at least provided with the first vibrations device at first position, is provided with the second place
Second vibrations device, touch control operation is shaken by least one vibrations in the first vibrations device, the second vibrations device
Dynamic feedback.
Optionally, stored in storage medium and step:It is determined that the first input corresponding with the first touch input area domain is anti-
Present effect, corresponding computer instruction among the process being performed, including:
Determine the first distance of the first touch input area domain and first position, and the second distance with the second place;
According to the first distance and second distance, at least one vibrations in the first vibrations device, the second vibrations device are determined
Device is shaken to carry out vibrational feedback to touch control operation.
Optionally, stored in storage medium and step:According to the first distance and second distance, the first electromagnetic shaker is determined
At least one vibrations device in part, the second vibrations device is shaken to carry out vibrational feedback, corresponding meter to touch control operation
Calculation machine is instructed among the process being performed, including:
Determine the electromagnetic shaker closer to the distance with the first touch input area domain in the first vibrations device, the second vibrations device
Part;
Vibrations device is shaken to carry out vibrational feedback to touch control operation determined by control.
Optionally, stored in storage medium and step:It is determined that the first input corresponding with the first touch input area domain is anti-
Present effect, corresponding computer instruction among the process being performed, including:
According to the area in the first touch input area domain, it is determined that the shockproofness of vibrations device and/or vibrations duration.
Optionally, stored in storage medium and step:It is determined that the first input corresponding with the first touch input area domain is anti-
Present effect, corresponding computer instruction among the process being performed, including:
Determine touch control operation touch-control at least two touch input area domains of touch-control part;
Determine the touch-control sequencing in the touch input area domain of touch control operation touch-control at least two;
According to touch-control sequencing, control vibrations device corresponding with least two touch input area domains difference is according to first
Time interval is shaken successively;Wherein, at least two touch input area domains respectively it is corresponding vibrations device refer to it is corresponding
The closest vibrations device in touch input area domain.
Optionally, stored in storage medium and step:It is determined that the first input corresponding with the first touch input area domain is anti-
Present effect, corresponding computer instruction among the process being performed, including:
It is gesture input region to determine the first touch input area domain;
Determine the touch-control direction that touch control operation is formed from beginning touch-control to end touch-control;
Vibrations device of the control on touch-control direction is shaken successively according to the second time interval.
Optionally, stored in storage medium and step:It is determined that the first input corresponding with the first touch input area domain is anti-
Present effect, corresponding computer instruction among the process being performed, including:
By searching touch input area domain and exporting the mapping table between feedback effects, it is determined that being inputted with the first touch-control
First input feedback effect corresponding to region;Wherein, mapping table is pre-set.
Described above, above example is implemented above only technical scheme to be described in detail
The explanation of example is only intended to help the method and its core concept for understanding the present invention, should not be construed as limiting the invention.This
Those skilled in the art the invention discloses technical scope in, the change or replacement that can readily occur in should all be covered
Within protection scope of the present invention.
Claims (19)
1. a kind of information processing method, including:
Detect the touch control operation for the touch-control part for acting on electronic equipment;Wherein, the touch-control part includes at least one touch
Input area is controlled, each touch input area domain at least one touch input area domain is correspondingly arranged on key markings;
Determine that the touch control operation acts on the position of touch of the touch-control part;
According to the position of touch, determine that the touch control operation is acted at least one touch input area domain first touches
Control input area;
It is determined that the first input feedback effect corresponding with the first touch input area domain;
The touch control operation is fed back with the first input feedback effect;Wherein, the first input feedback effect energy
Enough it is perceived by the user.
2. according to the method for claim 1, it is characterised in that with the first input feedback effect to first touch-control
Operation is fed back, including:
The touch control operation is fed back in a manner of one or more in vibrations, sound, display.
3. according to the method for claim 1, it is characterised in that the electronic equipment is at least provided with the at first position
One vibrations device, the second vibrations device is provided with the second place, passes through the described first vibrations device, second electromagnetic shaker
At least one vibrations in part carry out vibrational feedback to the touch control operation.
4. according to the method for claim 3, it is characterised in that it is determined that with the first touch input area domain corresponding first
Input feedback effect, including:
Determine first distance in the first touch input area domain and the first position, and second with the second place
Distance;
According to first distance and the second distance, determine in the first vibrations device, the second vibrations device
At least one vibrations device is shaken to carry out vibrational feedback to the touch control operation.
5. according to the method for claim 4, it is characterised in that according to first distance and the second distance, it is determined that
At least one vibrations device in the first vibrations device, the second vibrations device is shaken with to the touch control operation
Vibrational feedback is carried out, including:
Determine closer to the distance with the first touch input area domain in the first vibrations device, the second vibrations device
Shake device;
Vibrations device is shaken to carry out vibrational feedback to the touch control operation determined by control.
6. according to the method for claim 3, it is characterised in that it is determined that with the first touch input area domain corresponding first
Input feedback effect, including:
According to the area in the first touch input area domain, it is determined that the shockproofness of vibrations device and/or vibrations duration.
7. according to the method for claim 3, it is characterised in that it is determined that with the first touch input area domain corresponding first
Input feedback effect, including:
Determine the touch control operation touch-control at least two touch input area domains of the touch-control part;
Determine the touch-control sequencing at least two touch input area domains described in the touch control operation touch-control;
According to the touch-control sequencing, control and at least two touch input areas domain respectively it is corresponding shake device according to
The very first time, interval shaken successively;Wherein, corresponding vibrations device is respectively with least two touch input areas domain
Refer to the vibrations device closest with corresponding touch input area domain.
8. according to the method for claim 3, it is characterised in that it is determined that with the first touch input area domain corresponding first
Input feedback effect, including:
It is gesture input region to determine the first touch input area domain;
Determine the touch-control direction that the touch control operation is formed from beginning touch-control to end touch-control;
Vibrations device of the control on the touch-control direction is shaken successively according to the second time interval.
9. method according to claim 1 or 2, it is characterised in that it is determined that corresponding with the first touch input area domain
First input feedback effect, including:
By searching touch input area domain and exporting the mapping table between feedback effects, it is determined that being inputted with first touch-control
The first input feedback effect corresponding to region;Wherein, the mapping table is pre-set.
10. a kind of electronic equipment, including:
Touch-control part, including at least one touch input area domain, each touch-control at least one touch input area domain are defeated
Enter region and be correspondingly arranged on key markings;
Processor, it is connected with the touch-control part, the touch control operation of the touch-control part is acted on for detecting;It is it is determined that described
Touch control operation acts on the position of touch of the touch-control part;According to the position of touch, determine that the touch control operation acts on
The first touch input area domain at least one touch input area domain;It is it is determined that corresponding with the first touch input area domain
First input feedback effect;The touch control operation is fed back with the first input feedback effect;Wherein, described first is defeated
Entering feedback effects can be perceived by the user.
11. electronic equipment according to claim 10, it is characterised in that the electronic equipment also includes shaking assembly, sound
One or more in frequency output precision and display module;Wherein, shaken by the shaking assembly and the touch-control is grasped
Make carry out vibrational feedback, carry out audio output by the audio output component carries out sound feedback to the touch control operation, leads to
Cross the display module display information and display feedback is carried out to the touch control operation.
12. electronic equipment according to claim 10, it is characterised in that the electronic equipment is at least set at first position
It is equipped with the first vibrations device, the second vibrations device is provided with the second place, passes through the described first vibrations device, described second
At least one vibrations shaken in device carry out vibrational feedback to the touch control operation.
13. electronic equipment according to claim 12, it is characterised in that the processor is used for:
Determine first distance in the first touch input area domain and the first position, and second with the second place
Distance;
According to first distance and the second distance, determine in the first vibrations device, the second vibrations device
At least one vibrations device is shaken to carry out vibrational feedback to the touch control operation.
14. electronic equipment according to claim 13, it is characterised in that the processor is used for:
Determine closer to the distance with the first touch input area domain in the first vibrations device, the second vibrations device
Shake device;
Vibrations device is shaken to carry out vibrational feedback to the touch control operation determined by control.
15. electronic equipment according to claim 12, it is characterised in that the processor is used for:
According to the area in the first touch input area domain, it is determined that the shockproofness of vibrations device and/or vibrations duration.
16. electronic equipment according to claim 12, it is characterised in that the processor is used for:
Determine the touch control operation touch-control at least two touch input area domains of the touch-control part;
Determine the touch-control sequencing at least two touch input area domains described in the touch control operation touch-control;
According to the touch-control sequencing, control and at least two touch input areas domain respectively it is corresponding shake device according to
The very first time, interval shaken successively;Wherein, corresponding vibrations device is respectively with least two touch input areas domain
Refer to the vibrations device closest with corresponding touch input area domain.
17. electronic equipment according to claim 12, it is characterised in that the processor is used for:
It is gesture input region to determine the first touch input area domain;
Determine the touch-control direction that the touch control operation is formed from beginning touch-control to end touch-control;
Vibrations device of the control on the touch-control direction is shaken successively according to the second time interval.
18. the electronic equipment according to claim 10 or 11, it is characterised in that the electronic equipment also includes storage dress
Put, for storing touch input area domain and exporting the mapping table between feedback effects, the mapping table is to set in advance
Put;
The processor is used for:
By searching the mapping table, the first input feedback effect corresponding to the first touch input area domain is determined
Fruit.
19. a kind of electronic equipment, including:
Detection module, the touch control operation of the touch-control part of the electronic equipment is acted on for detecting;Wherein, the touch control part
Part includes at least one touch input area domain, and each touch input area domain at least one touch input area domain is correspondingly set
It is equipped with key markings;
First determining module, for determining that the touch control operation acts on the position of touch of the touch-control part;
Second determining module, for according to the position of touch, determining that the touch control operation acts at least one touch-control
The first touch input area domain in input area;
3rd determining module, for determining the first input feedback effect corresponding with the first touch input area domain;
Feedback module, for being fed back with the first input feedback effect to the touch control operation;Wherein, described first is defeated
Entering feedback effects can be perceived by the user.
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